Target operating model
A target operating model (TOM) is a strategic framework that outlines the desired future state of an organization's operations, defining the optimal configuration of internal and external capabilities—including processes, technology, people, and governance—to execute work effectively, achieve business ambitions, and meet customer needs.[1][2] The purpose of a TOM is to bridge the gap between an organization's current operations and its strategic vision, enabling greater agility, efficiency, and adaptability in response to market changes, regulatory pressures, and technological advancements.[3][2] In dynamic environments, such as financial services or pharmaceuticals, a well-designed TOM helps identify performance gaps, reduce operational complexity, and drive sustainable value creation—for example, achieving $170 million in annual productivity gains in a pharmaceutical company's integrated initiatives.[1] For instance, as of 2014, it supported transformations like adopting data-centric models for real-time decision-making or global utility structures to monetize shared operations in financial services.[2] Key components of a TOM typically include process and technology ecosystems, work structures, and organizational design, which together form an integrated blueprint for execution.[2] Modern TOMs emphasize connectivity to business strategy, dynamism through self-learning mechanisms, and an ecosystem approach that balances in-house capabilities with external partnerships, often incorporating AI, data analytics, and agile principles for iterative improvements.[1][4] This holistic structure ensures alignment across functions, fostering customer-centric outcomes and organizational resilience, with 69% of executives indicating that their operating models cannot continuously adapt to changes, highlighting the need for adaptable designs to navigate ongoing disruptions.[4] Designing and implementing a TOM involves engaging cross-functional leadership to envision bold, transformative futures beyond current constraints, followed by phased rollouts that prioritize quick wins and continuous evolution. However, many TOM initiatives face significant challenges, with reports indicating that up to 78% fail to fully deliver their intended outcomes as of 2024.[5] Consulting firms like Deloitte and BCG advocate for tailored approaches, such as shadow outsourcing or platform-based models, to realize benefits like enhanced risk management, additional value of 5-25% in specific outsourcing models, and improved client satisfaction in sectors facing intense competition.[2][3] Ultimately, a successful TOM requires strong executive commitment and serves as a multiyear roadmap for scaling innovations across the enterprise.[2]Overview
Definition
A target operating model (TOM) is a detailed blueprint that outlines the desired future state of an organization's operations, specifying how it will deliver value through the integration of key elements such as processes, people, technology, and governance to realize strategic objectives.[6] This forward-looking framework serves as an ecosystem for operations and technology, enabling companies to align their activities with long-term priorities and vision.[2] It represents aspirational changes rather than the existing setup, acting as a bridge between high-level strategy and practical execution by defining the "to-be" configuration of operational capabilities.[6] In contrast to the current or "as-is" operating model, which captures the present state of operations often shaped by incremental evolution and resulting inefficiencies, the TOM emphasizes intentional design to overcome limitations and drive transformation.[2] The as-is model reflects day-to-day realities, whereas the TOM focuses on targeted improvements to enhance alignment and performance.[6] TOMs apply across a broad scope, including entire enterprises, specific business functions, public sector entities, and non-profit organizations, adapting to diverse contexts such as financial services or government services.[2][7] They are typically represented as high-level diagrams, canvases, or documents ranging from one to several dozen pages to maintain focus without delving into operational manuals.[8] Key characteristics of a TOM include its holistic integration of organizational elements, forward-oriented perspective on future needs, and emphasis on achieving operational efficiency, agility, and strategic alignment.[9] This integrated approach ensures that the model not only supports current goals but also positions the organization for adaptability in dynamic environments.[6]Purpose and Benefits
The target operating model (TOM) serves as a blueprint for future operations, primarily aimed at translating high-level organizational strategy into actionable operational plans that align resources, processes, and capabilities with strategic objectives.[3] It addresses critical gaps, such as misalignment between IT investments and business strategy, by providing a structured framework to optimize resource deployment and ensure cohesive execution across the enterprise.[9] In contexts like mergers and acquisitions or digital transformation, the TOM enables organizations to redefine how they operate, supporting seamless integration of new assets or technologies while minimizing disruptions.[10] Key benefits of implementing a TOM include enhanced operational efficiency, often achieving up to 30% improvements in mature implementations through streamlined processes and reduced redundancies.[9] It fosters greater agility, enabling fivefold to tenfold faster decision-making and responsiveness to market changes, which is essential for competitive positioning in dynamic environments.[9] Additionally, the TOM promotes innovation by establishing standardized yet flexible operations that encourage cross-functional collaboration, while ensuring regulatory compliance through integrated governance mechanisms that embed risk management and accountability.[11] In value creation, the TOM acts as a roadmap for realizing synergies in multi-unit organizations, particularly during post-merger integrations, by systematically identifying operational redundancies and opportunities for shared services that consolidate functions like procurement or IT support.[10] This approach not only accelerates the capture of cost savings—such as through workforce optimization—but also enhances overall enterprise value by aligning disparate units toward common goals.[2] Measurable outcomes from a well-designed TOM include increased clarity in roles and responsibilities, which reduces overlap and boosts employee productivity by 10-30% via higher engagement levels.[9] It also facilitates faster decision-making and better resource allocation, often quantified through key performance indicators (KPIs) like 20-30% reductions in cycle times for critical processes, leading to improved on-time performance and customer satisfaction.[9] These gains close the typical 30% gap between strategy formulation and execution, delivering tangible financial results such as higher EBITDA margins.[9]Historical Development
Origins of the Concept
The foundational ideas underlying the target operating model trace back to mid-20th-century theories of organizational design, particularly Alfred Chandler's seminal 1962 book Strategy and Structure: Chapters in the History of the Industrial Enterprise. Chandler argued that successful large corporations adapt their organizational structures to support emerging strategies, emphasizing that "structure follows strategy" to enable efficient operations and growth; this thesis laid the groundwork for later concepts of aligning operational elements with strategic objectives.[12] The modern concept of an operating model was formalized in the early 2000s within enterprise architecture research, focusing on bridging business strategy and IT implementation. Jeanne W. Ross, a principal research scientist at MIT's Center for Information Systems Research (CISR), introduced the operating model in a 2005 research briefing as a high-level representation specifying the required degrees of business process integration and standardization to deliver value. Ross defined four archetypes to guide IT-business alignment: diversification (low integration and low standardization, suitable for independent units); coordination (high integration and low standardization, emphasizing shared data); replication (low integration and high standardization, for consistent processes across units); and unification (high integration and high standardization, for tightly coupled operations). This framework positioned the operating model as a proactive tool for IT investments, moving beyond reactive strategy support to foster agility and execution.[13] The term "target operating model" (TOM) emerged in the mid-2000s through consulting practices, evolving from enterprise architecture to denote a future-oriented blueprint for operational transformation. It gained traction as organizations sought to redesign processes, technology, and structures amid regulatory and efficiency pressures, with initial applications in financial services following the 2008 global financial crisis to support post-crisis reforms like enhanced risk management and compliance.[2][14] Ross's ideas were further developed in the influential 2006 book Enterprise Architecture as Strategy: Creating a Foundation for Business Execution, co-authored with Peter Weill and David C. Robertson, which positioned operating models as essential for translating strategy into executable IT-enabled processes and highlighted their role in achieving competitive advantage. The concept saw early adoption in public sector transformations during 2005–2010 efficiency drives in the UK, aligning operational redesigns for cost savings and service improvements with emerging enterprise architecture principles.[15]Evolution in Business Practice
The concept of the target operating model (TOM) gained significant prominence in the post-2010 era amid waves of digital transformation, as organizations sought to integrate emerging technologies with core operations for enhanced efficiency and customer-centricity. McKinsey's 2015 report on the next-generation operating model emphasized agile structures, combining digitization, advanced analytics, and intelligent process automation to achieve step-change improvements in revenue and cost, with examples showing up to 40% efficiency gains in customer journeys like insurance claims processing.[16] Similarly, Deloitte's 2019 analysis highlighted the need for reinvented operating models that balance growth and risk through ecosystem integration, enabling companies to overcome silos and accelerate digital initiatives in sectors like manufacturing.[17] These developments marked a shift from traditional, siloed designs to more modular and collaborative frameworks, influenced by the growing complexity of digital customer expectations and automatable work activities, estimated at 45% of employee tasks by contemporary analyses.[16] Global events further accelerated TOM adaptations, with the 2008 financial crisis prompting regulatory-driven restructurings in banking to enhance compliance and risk management. Post-crisis reforms, such as those under Basel III, compelled financial institutions to redesign operating models for greater transparency and capital efficiency, reducing reliance on short-term funding and integrating robust governance layers.[18] The COVID-19 pandemic from 2020 to 2022 intensified this evolution, driving a surge in consulting engagements focused on resilience through hybrid and remote work models. Organizations reported reduced revenue volatility and supply chain disruptions via widespread work-from-home adoption, with firms leveraging digital tools to maintain operations; for instance, BCG noted that hybrid models enabled seamless transitions, boosting productivity in knowledge-based roles by up to 20%.[19] McKinsey's 2022 insights underscored how these shifts emphasized adaptive processes, with over 48% of European employees teleworking at peak pandemic levels, fundamentally altering operating norms toward flexibility and crisis preparedness.[20] By 2023-2025, TOMs have increasingly incorporated AI and sustainability imperatives, evolving into dynamic, iterative designs that prioritize speed, skills, and employee commitment. McKinsey's June 2025 report on a "new operating model for a new world" outlines structures achieving 5x-10x faster decision-making through enterprise agility and AI scaling, with 38% of executives planning Chief AI Officer roles to address skill gaps and automate processes.[9] Sustainability integration has become central, aligning operations with environmental goals via ecosystem partnerships and purpose-driven metrics. Sector-specific adaptations include cloud-native models in technology, leveraging microservices for scalability as per McKinsey's 2025 tech trends, and patient-centric TOMs in healthcare, which emphasize personalized care pathways and data interoperability to improve outcomes.[21] Adoption has surged, with McKinsey's 2025 survey indicating 71% of organizations deploying generative AI across business functions, reflecting TOMs' transition from static blueprints to resilient, tech-enabled frameworks amid Fortune 500 transformation initiatives.[22]Core Components
People and Organizational Structure
The organizational structure within a target operating model (TOM) defines the hierarchy, reporting lines, and operational units necessary to align with strategic objectives, often balancing centralized control for efficiency against decentralized autonomy for agility. Centralized structures concentrate decision-making at the top to achieve economies of scale and standardized processes, as seen in companies like Apple, where a lean corporate center oversees broad spans of control to drive innovation and compliance.[23] In contrast, decentralized models empower business units with greater local decision rights to enhance responsiveness to market needs, such as in Berkshire Hathaway's hands-off approach with minimal central oversight.[23] Cross-functional teams and spans of control are critical elements, with flatter hierarchies enabling wider spans—typically 8-12 members in agile setups—to foster collaboration across silos and support value-creation streams like customer journeys.[16] People aspects in a TOM emphasize skills mapping and talent requirements to ensure the workforce can deliver core capabilities, often involving competency frameworks that link individual roles to strategic priorities. For instance, organizations like Netflix prioritize hiring top digital talent from competitors, using competitive compensation and stock options to build expertise in streaming operations.[8] Upskilling programs target emerging needs, such as digital analytics and agile methodologies, with rotational assignments and training to address skill gaps; McKinsey research highlights that upskilling top leaders in these areas can accelerate transformation by embedding expertise across units.[16] Cultural shifts are integral, promoting agile mindsets that value speed and experimentation over perfection, which requires leadership to model customer-centric behaviors and break down traditional silos.[24] Integration of people and structure in a TOM ensures alignment with broader capabilities, exemplified by agile squads—small, empowered cross-functional teams—that reduce time-to-market by up to 90% in tech-driven firms, or shared services models that centralize support functions like HR to optimize global operations.[16] Unilever's TOM, for example, reorganized into category-focused business groups with dedicated profit accountability, supported by a lean corporate center to enhance strategic execution.[8] Key considerations include diversity, equity, and inclusion (DEI), where structures incorporate accountable leadership and pay equity frameworks to boost retention and innovation; companies like Walmart have seen 20% higher retention rates for diverse talent through targeted upskilling and promotion pathways.[25] Change management implications arise during workforce transitions, necessitating dedicated workstreams to preserve critical knowledge and align culture with the new model, often taking 18 months or more for full realization.[24]Processes and Capabilities
In the target operating model (TOM), processes form the operational workflows that translate strategic objectives into tangible outcomes, encompassing both core activities directly tied to value creation—such as production, sales, and service delivery—and supporting functions like human resources and finance. These processes are typically mapped as end-to-end value chains to delineate activities from inception to completion, ensuring alignment with business goals and minimizing redundancies.[26] Standardization of these workflows is a key principle, often achieved through methodologies like lean management, which focuses on eliminating waste and enhancing flow to boost efficiency across the organization. For instance, in financial services, lean techniques have been integrated into TOM designs to streamline processes, improving cycle times by more than 50% in targeted transformations.[27] Capabilities, in contrast, represent the collective abilities and competencies that enable an organization to execute its processes effectively, often visualized through capability maps that inventory and prioritize what the organization can achieve at varying levels of proficiency. These maps serve as a foundational tool for constructing a TOM, allowing leaders to assess current strengths and gaps against strategic needs.[17] Maturity assessments evaluate these capabilities on scales ranging from ad-hoc, reactive approaches to optimized, proactive states, drawing on established frameworks to guide improvements.[28] In practice, organizations use such evaluations to elevate capabilities in areas like data analytics or customer engagement, ensuring they support scalable operations without overextending resources. The integration of processes and capabilities within a TOM creates a cohesive link to overall strategy, where workflows are refined to align with business priorities, such as identifying opportunities for automation to enhance speed and accuracy. Key performance indicators (KPIs) like throughput time—the duration to complete an end-to-end process—and error rates provide measurable benchmarks for this alignment, with targets often set to reduce errors below 1% and halve processing times in high-impact areas. For example, in financial services, TOM redesigns have leveraged these KPIs to automate back-office tasks, resulting in significant reductions in error rates and faster customer provisioning. Design principles for processes and capabilities emphasize scalability to accommodate growth, customer-centricity to prioritize user needs in workflow design, and seamless integration to break down silos, fostering end-to-end efficiency rather than fragmented operations.[29] Visualization tools, such as process modeling notations, aid in depicting these interconnected elements, enabling stakeholders to simulate changes and ensure strategic fit. This approach not only optimizes current performance but also positions the organization for future adaptability, with technology serving as an enabler for automation and real-time monitoring without altering the core process logic.[30]Technology and Information Systems
The technology stack in a target operating model (TOM) encompasses the foundational IT systems, cloud platforms, and automation tools that enable seamless integration and operational efficiency. Enterprise resource planning (ERP) systems, such as SAP, play a central role by providing a unified platform for integrating business functions like finance, supply chain, and human resources, ensuring data flows across the organization without silos.[31] Cloud platforms, including hybrid and multi-cloud environments, support this stack by offering scalable infrastructure that adapts to fluctuating demands, with architectures designed for high availability and fault tolerance.[32] Security is embedded through layered protocols, such as encryption and access controls, to protect against breaches while maintaining performance.[33] Information systems within a TOM focus on robust data management, advanced analytics, and AI integration to drive informed decision-making. These systems handle data governance, ensuring quality, accessibility, and compliance through standardized formats that facilitate interoperability across tools.[34] Real-time dashboards, powered by analytics platforms, provide executives with actionable insights, such as performance metrics and trend forecasts, enhancing responsiveness.[35] AI integration further elevates these capabilities by automating routine tasks and enabling predictive insights, with organizations reporting up to 14% efficiency gains from such implementations.[34] In a TOM, technology ensures alignment with overall business strategy by adopting modular architectures like microservices, which promote agility through independent deployment and scaling of components, reducing time-to-market for new features. Cybersecurity frameworks, such as NIST SP 800-204, guide the design of secure microservices-based systems, emphasizing threat modeling and secure communication to mitigate risks in distributed environments.[36] These elements support core processes by providing the digital backbone for workflow automation, though the focus remains on enabling rather than defining those workflows. As of 2025, AI-driven operations in TOM technology include applications such as predictive maintenance, where machine learning algorithms analyze equipment data to foresee failures and reduce downtime in manufacturing settings.[37] Sustainable technology, including low-carbon computing practices like energy-efficient data centers and green AI models, is increasingly integrated to minimize environmental impact, aligning with goals for net-zero emissions in IT operations.[38]Governance and Management Systems
Governance structures within a target operating model (TOM) establish the foundational oversight mechanisms that ensure alignment between strategic objectives and operational execution, encompassing policies, risk management, and compliance frameworks. These structures define clear authority levels and escalation paths to facilitate effective decision-making across the organization. For instance, in IT-centric TOMs, frameworks like COBIT provide a comprehensive set of governance and management objectives, including 40 core processes that address evaluate, direct, and monitor activities to mitigate risks and ensure compliance.[39] COBIT emphasizes the integration of risk management by identifying, assessing, and prioritizing IT-related risks that could impact business operations, thereby embedding resilience into the operating model.[40] Compliance elements, such as regulatory adherence and audit processes, are operationalized through structured policies that promote accountability and transparency, particularly in sectors like finance where third-party risk management TOMs outline governance for vendor oversight.[41] Management systems in a TOM focus on performance monitoring, resource allocation, and reporting to drive operational efficiency and strategic alignment. Performance metrics are often implemented via tools like the balanced scorecard, which links operational activities to broader strategy through multidimensional perspectives including financial, customer, internal processes, and learning/growth indicators. This approach enables budgeting and reporting systems to track key performance indicators (KPIs) that measure progress toward TOM goals, such as cost reductions or service delivery improvements, while ensuring fiscal discipline. Supplier management integrates into these systems by establishing ecosystems that govern vendor relationships, contract compliance, and performance evaluation to optimize supply chain reliability. Location strategies, including nearshoring, enhance resilience by relocating critical operations closer to core markets, reducing geopolitical risks and lead times, as seen in manufacturing sectors aiming for supply chain agility.[42] TOM integration of governance and management systems ensures overarching accountability, particularly through KPIs tailored to emerging priorities like ethical AI and environmental, social, and governance (ESG) reporting. In AI-driven TOMs, governance frameworks incorporate ethical guidelines and compliance controls to monitor AI deployment, such as bias detection and data privacy metrics, fostering responsible innovation.[43] For ESG, 2025 contexts emphasize reporting TOMs that align operations with sustainability goals, using KPIs for carbon emissions tracking and ethical sourcing to meet regulatory demands like the EU's Corporate Sustainability Reporting Directive.[44] These elements collectively reinforce the TOM's role as an integrative layer, balancing control with adaptability across people, processes, and technology.Design and Frameworks
Steps in Developing a TOM
Developing a target operating model (TOM) involves a structured, iterative process that aligns an organization's operations with its strategic goals, typically spanning assessment, design, and planning phases. This methodology ensures the future-state model addresses inefficiencies while leveraging core components such as people, processes, technology, and governance. The process is often facilitated by cross-functional teams and emphasizes stakeholder involvement to foster alignment and feasibility.[45] Step 1: Strategy AlignmentThe initial step requires reviewing the organization's business vision, mission, and strategic objectives to define the scope of the TOM. This alignment ensures that the operating model supports long-term goals, such as enhancing agility or scalability, by establishing clear boundaries for what the TOM will encompass. Leadership typically leads this phase through workshops or strategy sessions to translate high-level aspirations into operational parameters.[46][34] Step 2: As-Is Analysis
Next, the current operating model is mapped to identify strengths, weaknesses, and operational realities. This involves documenting existing processes, structures, and systems using tools like value-chain analysis, which breaks down activities into primary and support functions to reveal value creation points, or maturity assessments that evaluate capabilities against benchmarks. Data collection methods include stakeholder interviews, process audits, and performance metrics to provide a baseline for improvement.[8][47] Step 3: To-Be Design
With the current state understood, the future-state TOM is designed by defining desired configurations across key components, prioritizing areas with the largest gaps. This phase often employs collaborative workshops with stakeholders from various functions to envision optimized processes, organizational structures, and technology integrations that align with strategic priorities. The design emphasizes innovation, such as integrating digital capabilities, while ensuring coherence and scalability.[46][34] Step 4: Gap Analysis and Roadmap
A thorough gap analysis then compares the as-is and to-be states to pinpoint required changes, including resource needs and transformation levers. From this, a phased implementation roadmap is created, outlining timelines, milestones, dependencies, and quick wins to guide the transition. Prioritization considers factors like impact, feasibility, and risk, often using matrices to sequence initiatives effectively.[34][8] Step 5: Validation
Finally, the proposed TOM is validated through simulations, pilot programs, or scenario testing to confirm feasibility, estimate impacts, and secure stakeholder buy-in. Feedback loops allow for refinements, ensuring the model is realistic and adaptable to potential disruptions. This step mitigates risks by simulating real-world application before full commitment.[45][46] Throughout these steps, tools such as one-page canvases provide visual overviews for alignment and communication, while modeling software like ArchiMate enables detailed architectural representations of the TOM components. These aids enhance clarity and collaboration in the design process.[48]