- 1. A high-level overview of PDS
- What PDS offers customers:
- Problems that PDS resolves for our customers
- 2. PDS flows and stages
- 3. PDS scope
- 4. PDS packages and their respective value
- A. PDS — business analysis services
- Service definition
- Value for customers
- Business analysis deliverables
- B. PDS — project management services
- Service definition
- Value for customers
- Project management deliverables
- C. PDS — DevOps services
- Service definition
- Value for customers
- DevOps service deliverables
- D. PDS — QA services
- Service definition
- Value for customers
- QA service deliverables
- E. PDS — Architecture services
- Service definition
- Value for customers
- Architecture service deliverables
- F. PDS — Compliance services
- Service definition
- Value for customers
- Compliance service deliverables
PDS stands for “Product Development Services,” which is a model of cooperation between a software development company and its customers intended to successfully cover all project objectives.
This model suits customers who prioritize:
- Enhancing delivery ownership and risk management;
- Relieving in-house experts of PDS-related responsibilities;
- Efficient processes, predictable outcomes, and cost optimization.
Thanks to the comprehensive nature of this model, Andersen covers all these crucial KPIs:
- Schedule;
- Costs;
- Quality;
- Efficiency;
- CSAT;
- Governance;
- Knowledge;
- Risk mitigation;
- Innovation and transformation;
- SLAs.
Andersen has successfully managed dozens of PDS projects. In this white paper, we would like to describe the following key aspects of PDS in detail, drawing on everything we’ve learned:
- PDS overview;
- PDS flows and stages;
- PDS scope;
- PDS packages and their respective value;
- The deliverables customers receive.
1. A high-level overview of PDS
Andersen’s PDS-related responsibilities, assumed by our team when developing a software product from the ground up, are the following:
- We manage the development, implementation, and timeline;
- We set up processes through the whole SDLC, including risk management;
- We assume delivery accountability and budget control and report thoroughly and transparently to the customer’s stakeholders.
What PDS offers customers:
- Enhanced solution delivery. A holistic approach tailored to the customer's needs, including a customized business strategy, unique selling propositions (USPs), and criteria for successful delivery. From marketing to managed services, project lifespans are aligned with the organizational and business capacity and priorities of the customer;
- Transparency through reporting. Accurate forecasting and value management ensure continuous improvement. Detailed reporting facilitates the decision-making process, with presentations tailored for C-level executives and board members or investors;
- Entire control of budgets and timelines. Customers receive transparent data on spending in relation to value achieved. They can opt for either fixed interval or flexible reporting to track milestone achievements;
- Risk reduction and shared responsibility. By transferring responsibility and risk management to Andersen, customers can refocus their in-house expertise on more strategic functions;
- Agile iterative development. Flexible scoping allows for quicker time-to-market, adapting to changing needs and market conditions efficiently;
- Cross-industrial external expertise. Leveraging best practices from leading industries ensures the rapid application of proven solutions, eliminating the need for extensive market research.
Problems that PDS resolves for our customers
- Lack of detail in product concept. Through meticulous requirements elicitation and management, extensive market research, and the definition of business milestones and deliverables, customers gain a clear product delivery roadmap and business strategy;
- Lack of in-house or domain-specific expertise. Andersen leverages top talent to assemble a fast-working team of industry-trained specialists dedicated to delivering high-quality outcomes for our customers;
- Poor service and product quality by another vendor. Andersen’s team prides itself on a comprehensive internal quality management system that ensures end products are production-ready through iterative-based status checks and continual improvements;
- Risks threatening business continuity. Customers benefit from over 17 years of Andersen's knowledge and experience in custom software development and turnkey delivery. They rely on us for timely delivery, transparent budget control, proactive risk management, and contingency planning for unforeseen events;
- Lack of interaction with internal and external stakeholders. Andersen’s team ensures seamless communication with our customers' teams and any third parties. We conduct regular workshops and training sessions to ensure all stakeholders are aligned.
2. PDS flows and stages
Here is a list of typical PDS project stages:
Phase 0. Presale. The presale phase involves several critical steps to ensure a successful cooperation. It starts with project classification and the creation of a sales brief for the decision-making (DM) team. This is followed by an introductory call, a technical call, and a workshop with consultants and domain experts. Based on these discussions, a proposal is crafted, and paperwork is completed. The presale phase concludes with a kickoff meeting to start the project.
Phase 1. Discovery. During the discovery phase, the project's scope is defined, and the architecture is designed. This phase also includes the development of UI/UX prototypes and wireframes, as well as resource planning. Additionally, acceptance criteria are established to ensure that the project meets the customer’s required standards and expectations.
Phase 2. Engineering. The engineering service stage focuses on the iterative implementation process. This is the core phase of the project — the building of a fully functional software product. Our team works in iterations when coding, deploying the software, thoroughly testing it, making the necessary adjustments in accordance with changing requirements, etc.
Phase 3. Support and maintenance. Upon completing the development phase, we focus on maintaining and optimizing the software product. Managed services include proactive monitoring, regular updates, performance tuning, troubleshooting, and ongoing support. We ensure the product remains secure, reliable, and up-to-date, allowing our customers to concentrate on their core business activities while we handle all the technical complexities. This comprehensive support guarantees a seamless user experience as the business evolves.
3. PDS scope
Zooming in on the PDS scope, it can be broken down into the following:
1. Research services. Here, the vision for the future solution is generated, with careful consideration of all essential demands. This process includes thorough customer research, comprehensive competitor benchmarking, conceptualization, and ideation.
2. Requirements specification. The mission and vision of the digital product are converted into a clear, actionable engineering service plan, including elicitation, documentation, and research-based validation.
3. UI/UX design services. This is when the planned product takes visual shape, defining its future look and feel through user research, wireframing, and prototyping.
4. Architecture services. We establish the technological foundation for a feature-rich and intuitive solution to ensure proper data flows. These services include architecture design, data modeling, and storage safeguards.
5. Front-end engineering services. Here, we focus on the elements of the product development undertaking that end-users interact with to craft a highly usable solution. In order to achieve this, we refine UI/UX, develop components, and optimize performance.
6. Back-end engineering services. The behind-the-scenes aspects of the product development ensure a robust and efficient solution, encompassing databases, API creation, and security and compliance measures.
7. Integrations. No digital product operates in isolation. Every product must seamlessly integrate with its current counterparts and be able to adapt to future ones. Our team will incorporate an integration strategy, implement the necessary APIs, and establish compliance procedures.
8. QA services. Prior to market entry, the product is subject to end-to-end testing, based on Andersen’s proprietary QA framework. It includes a comprehensive test strategy, bug tracking, database testing, performance testing, API testing, functional testing, etc.
9. Go-live and post-production services. This phase is crucial as it’s when end-users are able to interact with the solution and give their feedback. It encompasses deployment and initial monitoring, as well as rounds of feedback collection.
10. Managed services. These ensure a continuous and smooth operation of the software product post-launch. There are several key components:
- Proactive and continuous system monitoring to prevent potential issues by ensuring any anomalies are detected and addressed swiftly;
- A robust service desk system through which users can report issues and request assistance;
- Regular scheduled maintenance to keep the software up-to-date, secure, and performing at its best – for example, by applying patches and updates;
- Ongoing performance tuning to optimize efficiency and user experience;
- Troubleshooting and technical support;
- Scalability planning and implementation to support product growth and evolution.
4. PDS packages and their respective value
When customers reach out to Andersen for IT expertise and skills, they get access to a coherent team from a competence center to rely on for:
A. Business analysis services;
B. Project management services;
C. DevOps services;
D. QA services;
E. Architecture-related services;
F. UI/UX design services;
G. Development partnership, including mobile and web developers for their products.
A. PDS — business analysis services
Service definition
Andersen’s Business Analysts (BAs) offer the following services:
1. Project Discovery services
The Discovery phase enhances and aligns the understanding of the product's scope. This phase delves into the details of its modules, main user roles, potential integrations, risks, and business context to enable precise estimations.
2. Project documentation services
Basic documents – such as Vision and Scope (V&S), Software Requirements Specification (SRS), Business Requirements Document (BRD), user story maps, backlogs, prototypes, and diagrams – are created by the BA according to the implementation plan.
3. Project implementation and supervision services
The BA's contribution to the implementation process includes creating and refining backlogs, planning releases, and analyzing user feedback.
4. Pre-development services
Andersen's team of BAs negotiates the scope and develops a feature list to provide the development team with a comprehensive understanding of the product, leading to more accurate estimations.
5. Additional services
Extra services include consultancy to provide project support, negotiate industry best practices, offer Product Ownership Support, conduct performance assessments, and create customer-specific competency matrices.
Value for customers
Working together with our BAs gives the customer:
1. Project clarity
We provide a comprehensive feature list with epics and high-level feature descriptions, presented as visualized artifacts. They are discussed with the customer to ensure a clear and unified vision of the project scope and implementation steps.
2. Cost savings
A clear project vision results in more precise project estimations, helping to avoid excessive spending.
3. Trend awareness
On request, we conduct benchmarking analysis to identify the features and advantages of the products offered by the customer’s competitors and the market leaders. This allows us to integrate these insights into the product development process.
4. Ownership of the artifacts
The prepared artifacts can be provided to other vendors for estimation, facilitating price comparisons. These artifacts are also used during the onboarding process to allow new team members to get up to speed with the product without delay.
5. Responsibility limits
We provide customers with clear, concise, and manageable documentation to define the project scope and responsibilities. This prevents ambiguities and ensures clear understanding of project responsibilities.
6. Versatility and transparency
Our documents adhere to best practices and are familiar to experienced specialists worldwide. This ensures they can be easily shared and utilized by other teams at subsequent project stages.
7. Standard compliance
We create the product specifications that are required to pass certifications and form a solid basis for further improvements.
8. Comprehensive product tutorials
We prepare detailed guiding documentation for training the customer’s employees on product usage, as well as creating instructions and guidelines for end users to facilitate product onboarding.
9. Expert assistance
Our subject-matter experts provide consultations on domain-specific details and industry trends.
10. Documentation audit services
We conduct BA documentation audits for customers’ projects. We can also provide startups with the necessary artifacts to track their progress.
11. Business optimization support
Our specialists make product development scope recommendations, drawing on the knowledge and experience acquired from our previous successful cases.
12. Feedback processing
Our BAs facilitate the rapid processing of user feedback to streamline scope implementation and meet user expectations.
13. Cutting hiring costs
Customers avoid the expense of hiring internal assessment specialists.
14. Establishing assessment processes
We create a customer-adjusted competencies matrix, enabling customers to independently assess their employees.
Business analysis deliverables
1. Vision and Scope document
A high-level deliverable outlining the scope.
2. User story map
A visualized scope with defined user roles and implementation priorities.
3. Matrix of roles and permissions
A description of the roles and permissions available for particular user groups.
4. BPMN diagrams
Visualized business processes and the interactions between the participants.
5. Use case diagram
Analysis of the project to show how it compares with market leaders or particular competitors.
6. Software Requirements Specification
A high-level document describing the agreed-upon requirements.
7. Traceability matrix
A tool to ensure all the requirements are provided for by the functions.
8. Optional artifacts
These include feature lists, initial sprint backlogs, context diagrams, prototypes, user guides, API interface specifications, database specifications, data flow diagrams, data model diagrams, component diagrams, entity relationship diagrams, etc.
B. PDS — project management services
Service definition
Following the work executed by the BAs, project management services cover the implementation process via:
1. Cost estimation and budget development
Effective budget management is crucial for successful project implementation. Inadequate budget planning and management can lead to financial waste.
2. Project planning and task execution control services
Thorough project planning and strict task execution control are essential to ensure project objectives are met on time and within budget. This process involves defining tasks, setting timelines, and continuously monitoring progress.
3. Project status reporting
Lack of reporting hinders the ability to share project status with stakeholders, resulting in reduced transparency, mistrust, and unmet expectations. Regular, detailed status reports are vital for maintaining stakeholder confidence and project alignment.
4. Team performance tracking services
Transparent work practices and performance tracking foster accountability and communication. Andersen monitors various performance metrics, including velocity, lead time, cycle time, estimation accuracy, sprint burndown, work in progress, customer satisfaction, and throughput.
5. Communication management services
Effective communication is essential for information exchange within a project. Poor communication leads to information loss, extended delivery cycles, increased resource costs, productivity declines, and reduced development time.
6. Risk management services
Identifying potential risks and developing response strategies is critical to avoid unexpected issues. Failure to manage risks will undermine strategic plans and cause additional time and budget losses.
Value for customers
1. Efficient project initiation
Rapid project setup is crucial for customers, enabling immediate development once a project is approved. This reduces lag time and accelerates the overall project timeline.
2. Reduced time-to-market
Fast project initiation shortens time-to-market, giving customers an edge by allowing them to launch their product or service before their competitors, which will help to capture market share and establish a recognizable brand presence.
3. Savings
Well-organized project setup ensures faster implementation, which minimizes expenses. Customers benefit from more resources being spent on development than setup.
4. Increased agility
The agility to adjust project scopes to market changes and new opportunities allows customers to stay competitive.
5. Enhanced collaboration and alignment
The establishment of clear communication channels, roles, and expectations provides for early alignment of project stakeholders. This maintains project momentum and enhances efficiency.
6. Quality and predictability
Comprehensive documentation and process oversight ensure high-quality standards and predictable outcomes, building trust and satisfaction.
7. Handling challenges with confidence
Andersen’s expertise in digital transformation, process automation, and scalability ensures that customers' project challenges are competently managed, regardless of complexity or domain.
8. Result-oriented solutions
Customers benefit from a focus on tangible business results, ensuring projects not only reach completion but also achieve the desired business goals, resulting in higher ROI, competitive advantage, and strategic success.
9. Customized solutions
With extensive experience in industries like healthcare, banking, and eCommerce, our company delivers tailored solutions that meet customers’ unique needs.
10. Customized management approach
Andersen’s commitment to project excellence means each project is managed with a deep understanding of its unique challenges and objectives so that customers receive personalized strategies and solutions.
Project management deliverables
1. Budgeting services
Budget plan, budget forecast, budget burndown, etc.
2. Planning and execution services
Project timeline, feature roadmap, release plan, change request templates, etc.
3. Reporting and team performance
Iteration reports, monthly reports, RAG (Red, Amber, and Green) status ratings, SWOT analysis, etc.
4. Communication services
RACI matrix, communication matrix, escalation matrix, stakeholder register, etc.
5. Risk management services
Risk log, risk matrix, etc.
C. PDS — DevOps services
Service definition
The mission of DevOps is all about enhancing the collaboration between development and operations teams to deliver software more efficiently, reliably, and with higher quality. To achieve this automation, continuous integration, and continuous delivery practices are applied.
DevOps services include:
1. Initial conducting services
This stage involves collecting requirements, including determining non-functional requirements (NFRs), ensuring project compliance with requirements and existing models, forecasting infrastructure costs, and presenting the proposed scope of DevOps services, including a detailed backlog, epics, and milestones.
2. Development services
The development phase includes planning sprints, setting up accounts, workflows, credentials, and development and test environments, and implementing CI/CD. It also involves integrating quality gates, vulnerability scanning, cost limits, private cloud access, and establishing basic observability with monitoring, logging, emergency notifications, and tracing.
3. Advanced services and features
This includes implementing infrastructure as code (IaC), collecting auto-discovery metrics, protecting IaC branches, and automating the deployment of new environments using CI/CD. It also encompasses other automation features like GitOps, ChatOps, and AIOps, as well as UAT deployment through CD implementation.
4. Production design services
Creating the design based on key production environment characteristics, implementing security, domain-specific, and other requirements, developing an operation plan, and implementing XOps features in the production environment.
Value for customers
1. Start-up acceleration
A well-defined set of actions and plans for initiating work.
2. Clear technical requirements for infrastructure, processes, and NFRs
Forming requirements and delivering standard sets for popular stacks with adaptable templates for key processes.
3. Management of infrastructure and development tools
The best possible combinations for implementing requirements based on numerous case studies.
4. Transparency of work
An efficient sequence and composition of work allows most tasks to be done without interfering with development and testing.
5. Control and reporting of releases, versions, infrastructure changes, and costs Mechanisms for process control and detailed reporting on various project aspects.
6. Sensitive data security services
A secure SDLC process framework to protect sensitive information.
7. Reliability and scalability of code after the pilot phase
Selection of scalable technologies and tools that adjust to load demands.
8. Guaranteed quality and team responsibility
Commitment to maintaining high product quality standards and full responsibility for the development assumed by the team.
9. Reduced risks pertaining to competencies and onboarding
Minimizing risks associated with team competencies and onboarding processes.
10. Continuously ensuring quality
Maintaining high standards, mature processes, and solid QA practices throughout the delivery phase and support activities.
11. Onboarding savings
Cost-effective onboarding procedures for the support team.
12. Transparent service delivery metrics
Clear metrics for service delivery, including SLA and SLO.
13. Guaranteed knowledge transfer
Ensuring effective knowledge transfer from the development team to the support team.
DevOps service deliverables
1. Preliminary analysis of the project
Collecting basic project details to assess the Discovery scope and aligning DevOps services with project goals and domain-specific needs.
2. Formation of a proposal for the Discovery phase
Specifying the technical stack and infrastructure components, illustrating case studies and methodology, and providing recommendations and key designs.
3. Infrastructure diagram and operations plan
Gathering requirements, designing NFR deliverables, ensuring MDS compliance, forecasting costs, presenting the DevOps service scope, and outlining the backlog, epics, and milestones.
4. Calculation of development costs and infrastructure budget plan
Estimating infrastructure and additional service costs and identifying ways to optimize losses.
5. Preparing tools for organizing the development environment
Making sure the tools for setting up the development environment and establishing basic SSDLC processes are in place.
6. Setting up the development environment
Deploying necessary infrastructure and cloud resources, including front-end and back-end components, network setup, user privileges, and integration of storage and databases.
7. Organizing basic SSDLC processes in the development environment Implementing CI/CD, integrating quality gates, vulnerability scans, and private cloud access, and establishing cost limits and basic observability tools.
8. Setting up the test environment
Deploying necessary infrastructure and cloud resources for the SSDLC processes, including front-end and back-end components, network setup, user privileges, and integration.
9. Adapting SSDLC processes
Customizing SSDLC processes for the test environment.
10. Monitoring and alerting within environments
Implement monitoring and alerting systems for development and test environments.
11. Implementing infrastructure as code manually
Creating code for cloud infrastructure and providing a user manual for management.
12. Development of IaC automation
Collecting auto-discovery metrics, protecting IaC branches, and automating environment deployment using CI/CD methodologies.
13. Development of advanced operation features
Implementing GitOps, ChatOps, and AIOps for enhanced operations.
14. Development of production and UAT environments
Establishing a data protection and reliability plan, sensitive data masking, and advanced operation and support plans.
D. PDS — QA services
Service definition
Andersen’s QA framework is a comprehensive approach covering front-end, back-end, and mobile-specific issues. It includes detailed descriptions of test management system workflow and configuration practices. Our framework provides a clear guide for collaboration between developers and QA specialists, covering merges, code review processes, and more. It also outlines the lifecycle of bugs and test tasks, along with templates for bug reports, test cases, and test strategies. Additionally, our framework includes rules for task estimation and templates for testing result reports and metrics, ensuring efficiency and consistency in our QA processes.
Value for customers
1. Cost efficiency
Utilizing pre-built templates and established practices enables customers to significantly reduce development costs.
2. Accelerated time-to-market
Streamlined processes and readily available templates expedite project completion, leading to faster product launches.
3. Enhanced transparency
Customers benefit from a clear overview of project advancement and tasks, fostering transparency and effective project management.
4. Consistent quality assurance
Our framework guarantees consistent quality by enforcing standardized practices and workflows across all stages of development.
5. Improved product reliability
Thorough testing, covering functional, non-functional, and change-related aspects, ensures the delivery of a dependable product that exceeds client expectations.
6. Efficient resource allocation
Testing optimizes resource allocation by prioritizing critical areas, which helps to avoid redundancies and maximize productivity.
7. Scalability and adaptability
Our testing procedures ensure systems are scalable to accommodate expanding user bases and adaptable to evolving business needs, providing clients with flexibility for future growth and changes.
QA service deliverables
1. Back-end test plan
Outlines the testing strategy for the back-end application to guide the testing team systematically and ensure that the resulting functionality meets the criteria.
2. Front-end test plan
Defines the testing strategy for the web app, ensuring that the functionality meets the criteria and guides testing comprehensively.
3. Mobile test plan
Establishes testing strategy for the mobile app, ensuring that the functionality meets the criteria and guides testing systematically.
4. Bug report lifecycle flow
Tracks bug lifecycle from Backlog to Done, ensuring systematic handling and resolution throughout.
5. Bug report example
Includes bug priority and structure, covering issue type, summary, priority, assignee, environment, description, actual result, expected result, etc.
6. Developers and QA specialists' collaboration guide
Covers Dev, Test, and Release branches, mandatory code reviews, and approvals.
7. Task management workflow
Provides a structured workflow resulting in a quality assurance focus, transparency, flexibility, efficiency enhancement, communication resolution, and a high standard of deliverables.
8. Manual and automated testing estimations
Provides estimations for both manual and automated testing efforts to ensure accurate project planning and resource allocation.
9. QA report template
Offers a standardized template for QA reports, facilitating clear documentation and communication of testing results and issues.
E. PDS — Architecture services
Service definition
Solution architecture can be defined as the process of designing, describing, and managing the solution engineering in relation to specific business problems. As such, it involves generating a comprehensive blueprint that outlines the structure, characteristics, and behavior of a tech solution. Andersen’s PDS framework includes:
1. Development of the architectural vision
a. The development of the architectural vision involves a clear definition and alignment of architectural drivers, including business goals, major features, design constraints, architectural concerns, quality attributes, and quality attribute scenarios;
b. The solution architecture should comprehensively describe the system context, containers, components, and deployment flow and include a log of decisions and risks;
c. The operation plan must outline infrastructure, continuous integration and delivery, monitoring, SSDLC concepts, and backup and restore strategies;
d. Finally, the implementation roadmap should detail milestones, the technology stack, estimations, and team skill sets.
2. Architectural implementation supervision services
Though optional, these services involve reviewing project artifacts and team activities to ensure compliance with the Architecture Vision Document (AVD). This includes creating project artifacts like coding standards and technical architecture-driven epics or stories, as well as enabling project processes by providing requirements for process setup and participation, all aimed at maintaining alignment with the AVD.
3. Proof of Concept (PoC) services
Though optional too, implementing PoC services validates solution options and assesses key technical capability risks early in the project. This ensures that potential issues are identified and addressed before full-scale implementation.
4. IT transformation and optimization consulting services
These cover creating a business-IT capability map and an IT roadmap. In addition, Andersen can conduct solution/platform and application/project technical audits and develop integration architecture and API management strategies. We can also work on legacy refactoring and cloud migration, vendor product selection, tech stack selection, and infrastructure audits. Furthermore, Andersen can provide consulting services on hybrid infrastructure architecture, designing data platforms, and AI/ML solutions.
Value for customers
1. Ensuring a well-defined solution
A well-defined architecture takes into account the goals, key requirements, constraints, and both business and non-functional requirements, providing a baseline for fundamental and long-term solution design decisions. Handling critical requirements early mitigates the risks of major reworks during User Acceptance Testing (UAT).
2. Preventing miscommunication between developers and maintenance personnel
As a result, project delays related to inadequate infrastructure planning and misunderstandings amongst the involved parties will be avoided.
3. Ensuring consistent understanding between the stakeholders and team
Guaranteeing that IT operations are in harmony with the CTO policies in order to achieve the long-term goals.
4. Facilitating future projects
Reinforcing policy control by IT operations/CTO.
Architecture service deliverables
1. Architecture Vision Document
The Architecture Vision Document serves as a blueprint outlining the strategic direction and foundational elements of the project. It begins with an introduction that includes the vision purpose, business context, glossary, and references. Following this, the executive summary outlines a high-level description and the key decisions and risks.
Then, the document delves into architectural drivers by detailing business goals, major features, design constraints, architectural concerns, and quality attributes. The solution architecture section describes the system context view, container view, component view, deployment view (optional), and decision view. The operation plan outlines the infrastructure, continuous integration and delivery, monitoring approaches, SSDLC concepts (optional), and backup and restore strategies (optional).
Finally, the implementation roadmap covers implementation milestones, the technology stack, estimations, team members’ skill sets, and team structure, providing a clear pathway for executing and managing the project.
2. Software Architecture Document
The Software Architecture Document serves as a guide to the architectural design and operational planning of a software system. It begins with an introduction that outlines the scope, definitions, references, and relationship to other SADs and provides a documentation roadmap.
The architecture background section addresses the business case, including business goals, major features, architectural and business constraints, concerns, and service level agreements. It also covers quality attribute scenarios, stakeholder representation, and the solution background, including architectural approaches, analysis results, requirements coverage, and product line reuse considerations.
The architecture description includes various views, such as context, decomposition, use case, domain, layered application structure, and decision views, each detailing intent, context, representation, element catalogs, behavior, variability, reasoning, and stakeholder concerns.
The document further details the technology stack, including development languages, frameworks, libraries, tools, and external integration points. The operation plan encompasses the transition phase, including infrastructure, environments, provisioning, management, and monitoring, and the operation phase that includes service operation support, CMOD activities, and continuous improvement processes.
This comprehensive document ensures all aspects of the software architecture are thoroughly planned and clearly expressed.
F. PDS — Compliance services
Service definition
Throughout the entire flow, Andersen will guarantee that the project matches all guidelines and standards.
1. Regulatory clearance plan development services
Creating a regulatory clearance plan is a critical step for any customer seeking to bring a product to market, particularly in highly regulated industries like pharmaceuticals, medical devices, biotechnology, food, automotive, and aerospace.
2. Technical documentation development services
Technical documentation provides detailed information about a product, system, or process, catering primarily to engineers, technicians, developers, or other professionals involved in its design, development, implementation, or maintenance.
3. QMS development services
A Quality Management System is a formalized system that documents processes, procedures, and responsibilities for achieving quality policies and objectives.
4. ISMS development services
An Information Security Management System is a systematic approach to managing sensitive company information so that it remains secure. ISMS encompasses people, processes, and IT systems by applying a risk management process.
Value for customers
1. Clear regulatory comprehension
Customers benefit from a clear grasp of the regulatory requirements relevant to their product, including identification of regulatory bodies, guidelines, and standards. Efficient classification and identification of regulatory pathways streamline the clearance process, saving time and ensuring compliance. Understanding international regulations and abiding by them ensures readiness for global market entry, reducing barriers to market expansion.
2. Enhanced product understanding and effective utilization
Detailed documentation helps customers understand and utilize products effectively, reducing support needs and maximizing ROI. Customers gain troubleshooting guidance that enables them to resolve issues independently, minimizing downtime and promoting self-service support. Comprehensive documentation facilitates smooth onboarding and training, enabling users to quickly familiarize themselves with the product. Documentation ensures ongoing support, maintenance, and regulatory compliance, enhancing product longevity and client satisfaction.
3. Consistent quality and dependability
Customers obtain consistent, high-quality products/services, building trust and reliability. Enhanced processes ensure compliance with standards, meeting client expectations and, again, regulatory requirements. Cost savings and continual improvement benefit customers through competitive pricing and evolving quality respectively. Risk management processes minimize disruptions and ensure transparent communication, enhancing client confidence and satisfaction.
4. Enhanced security and compliance
Customers benefit from enhanced data security, safety compliance, and assurance of business continuity. Strong security practices enhance our customers’ reputation, increase the public’s trust in their products, and differentiate them from their competitors. Transparent security practices and incident response mechanisms reassure clients and minimize data risks. Certification provides validation of security measures, while a proactive approach ensures ongoing security enhancements, maintaining the safety of client data.
Compliance service deliverables
1. Regulatory clearance plan
Provides a structured approach to obtaining approval from regulatory authorities and ensures compliance with relevant regulations.
2. Technical documentation
Serves as a comprehensive reference guide, offering insights into specifications, functionalities, architecture, components, interfaces, usage, troubleshooting, and more.
3. Quality Management System (QMS)
Coordinates and directs an organization’s activities to meet customer and regulatory requirements, improving effectiveness and efficiency continuously.
4. Information Security Management System (ISMS)
Ensures the confidentiality, integrity, and availability of information through risk management processes, providing reassurance to stakeholders that risks are adequately managed.