Techniques to mitigate those challenges
In this section, we will discuss how a data architect can mitigate the aforementioned challenges. To understand the mitigation plan, it is important to understand what the life cycle of a data architecture looks like and how a data architect contributes to it. The following diagram shows the life cycle of a data architecture:
Figure 1.8 – Life cycle of a data architecture
The data architecture starts with defining the problem that the business is facing. Here, this is mainly identified or reported by business teams or customers. Then, the data architects work closely with the business to define the business requirements. However, in a data engineering landscape, that is not enough. In a lot of cases, there are hidden requirements or anomalies. To mitigate such problems, business analysts team up with data architects to analyze data and the current state of the system, including any existing solution, the current cost, or loss of revenue due to the problem and infrastructure where data resides. This helps refine the business requirements. Once the business requirements are more or less frozen, the data architects map the business requirements to the technical requirements.
Then, the data architect defines the standards and principles of the architecture and determines the priorities of the architecture based on the business need and budget. After that, the data architect creates the most suitable architectures, along with their proposed technology stack. In this phase, the data architects closely work with the data engineers to implement proof of concept (POCs) and evaluate the proposed solution in terms of feasibility, scalability, and performance.
Finally, the architects recommend solutions based on the evaluation results and architectural priorities defined earlier. The data architects present the proposed solutions to the business. Based on priorities such as cost, timeline, operational cost, and resource availability, feedback is received from the business and clients. It takes a few iterations to solidify and get an agreement on the architecture.
Once an agreement has been reached, the solution is implemented. Based on the implementation challenges and particular use cases, the architecture may or may not be revised or tweaked a little. Once an architecture is implemented and goes to production, it enters the maintenance and operations phase. During maintenance and operations, sometimes, feedback is provided, which might result in a few architectural improvements and changes, but they are often seldom if the solution is well-architected in the first place.
In the preceding diagram, the blue boxes indicate major involvement from a customer, a green box indicates major involvement from a data architect, a yellow box means a data architect equally shares involvement with another stakeholder, and a gray box means the data architect has the least involvement in that scenario.
Now that we have understood the life cycle of the data architecture and a data architect’s role in various phases, we will focus on how to mitigate those challenges that are faced by a data architect. This book covers how to mitigate those challenges in the following way:
- Understanding the business data, its characteristics, and storage options:
- Data and its characteristics were covered earlier in this chapter; it will also be covered partly in Chapter 2, Data Storage and Databases
- Storage options will also be discussed in Chapter 2, Data Storage and Databases
- Analyzing and defining the business problem:
- Understanding the various kinds of data engineering problems (covered in this chapter)
- We have provided a step-by-step analysis of how an architect should analyze a business problem, classify, and define it in Chapter 4, ETL Data Load – A Batch-Based Solution to Ingest Data in a Data Warehouse, Chapter 5, Architecting a Batch Processing Pipeline, and Chapter 6, Architecting a Real-Time Processing Pipeline
- The challenge of choosing the right architecture. To choose the right architectural pattern, we should be aware of the following:
- The types of data engineering problems and the dimensions of data (we discussed this in this chapter)
- The different types of data and various data storage available (Chapter 2, Data Storage and Databases)
- How to model and design different kinds of data while storing it in a database (Chapter 2, Data Storage and Databases)
- Understanding various architectural patterns for data processing problems (Chapter 7, Core Architectural Design Patterns)
- Understanding the architectural patterns of publishing the data (Section 3, Enabling Data as a Service)
- The challenge of choosing the best-fit technology stack and data platform. To choose the correct set of tools, we need to know how to use a tool and when to use what tools we have:
- How to choose the correct database will be discussed in Chapter 2, Data Storage and Databases
- How to choose the correct platform will be discussed in Chapter 3, Identifying the Right Data Platform
- A step-by-step hands-on guide to using different tools in batch processing will be covered in Chapter 4, ETL Data Load – A Batch-Based Solution to Ingest Data in a Data Warehouse, and Chapter 5, Architecting a Batch Processing Pipeline
- A step-by-step guide to architecting real-time stream processing and choosing the correct tools will be covered in Chapter 6, Architecting a Real-Time Processing Pipeline
- The different tools and technologies used in data publishing will be discussed in Chapter 9, Exposing MongoDB Data as a Service, and Chapter 10, Federated and Scalable DaaS with GraphQL
- The challenge of creating a design for scalability and performance will be covered in Chapter 11, Measuring Performance and Benchmarking Your Applications. Here, we will discuss the following:
- Performance engineering basics
- The publishing performance benchmark
- Performance optimization and tuning
- The challenge of a lack of data governance. Various data governance and security principles and tools will be discussed in Chapter 8, Enabling Data Security and Governance.
- The challenge of evaluating architectural solutions and recommending them to leadership. In the final chapter of this book (Chapter 12, Evaluating, Recommending, and Presenting Your Solution), we will use the various concepts that we have learned throughout this book to create actionable data metrics and determine the most optimized solution. Finally, we will discuss techniques that an architect can apply to effectively communicate with business stakeholders, executive leadership, and investors.
In this section, we discussed how this book can help an architect overcome the various challenges they will face and make them more effective in their role. Now, let’s summarize this chapter.