Vol. 2 No. 2 (2022): Journal of AI-Assisted Scientific Discovery
Articles

Comparing Apache Iceberg and Databricks in building data lakes and mesh architectures

Sarbaree Mishra
Program Manager at Molina Healthcare Inc., USA
Cover

Published 15-11-2022

Keywords

  • Apache Iceberg,
  • Databricks

How to Cite

[1]
Sarbaree Mishra, “Comparing Apache Iceberg and Databricks in building data lakes and mesh architectures”, Journal of AI-Assisted Scientific Discovery, vol. 2, no. 2, pp. 278–303, Nov. 2022, Accessed: Dec. 24, 2024. [Online]. Available: https://scienceacadpress.com/index.php/jaasd/article/view/240

Abstract

Data lakes and mesh architectures have revolutionized how organizations manage and leverage their data, offering scalable, flexible solutions for storing, processing, and analyzing vast datasets. Among the key technologies driving these advancements, Apache Iceberg and Databricks stand out for their distinct capabilities and approaches. Apache Iceberg is an open table format designed to address challenges in managing large-scale datasets with features like schema evolution, time travel, and multi-engine compatibility. Its modular design and ability to optimize queries provide enterprises with a powerful tool for creating interoperable, high-performance data lakes. Iceberg’s focus on data consistency & scalability makes it particularly suited for organizations prioritizing flexibility and long-term resilience. In contrast, Databricks offers an integrated platform that combines data engineering, analytics, and machine learning, fostering a collaborative environment for building unified data pipelines. Its seamless integration of various workflows and support for domain ownership align closely with the principles of data mesh, making it a compelling choice for organizations focused on decentralized data management. Databricks emphasizes operational efficiency, offering robust tools for teams to collaborate and innovate across data domains. This article examines the core features of both technologies, evaluating their scalability, usability, and adaptability in modern data architectures. It highlights Iceberg’s strength in maintaining flexibility & openness and Databricks’ ability to simplify complex data workflows and drive collaboration. By comparing their strengths and trade-offs, organizations can better understand which technology aligns with their strategic goals, whether they seek to build resilient, open-format data lakes or fully integrated, collaborative data mesh frameworks.

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References

  1. Armbrust, M., Ghodsi, A., Xin, R., & Zaharia, M. (2021, January). Lakehouse: a new generation of open platforms that unify data warehousing and advanced analytics. In Proceedings of CIDR (Vol. 8, p. 28).
  2. Machado, I. A. (2021). Proposal of an Approach for the Design and Implementation of a Data Mesh (Master's thesis, Universidade do Minho (Portugal)).
  3. Simon, A. R. (2021). Data Lakes for Dummies. John Wiley & Sons.
  4. Sourander, J. (2021). Delta Lake tietovarastona.
  5. Thumburu, S. K. R. (2021). Optimizing Data Transformation in EDI Workflows. Innovative Computer Sciences Journal, 7(1).
  6. Thumburu, S. K. R. (2021). Data Analysis Best Practices for EDI Migration Success. MZ Computing Journal, 2(1).
  7. Gade, K. R. (2021). Cost Optimization Strategies for Cloud Migrations. MZ Computing Journal, 2(2).
  8. Gade, K. R. (2021). Data-Driven Decision Making in a Complex World. Journal of Computational Innovation, 1(1).
  9. Katari, A., Muthsyala, A., & Allam, H. HYBRID CLOUD ARCHITECTURES FOR FINANCIAL DATA LAKES: DESIGN PATTERNS AND USE CASES.
  10. Katari, A. Conflict Resolution Strategies in Financial Data Replication Systems.
  11. Komandla, V. Enhancing Security and Fraud Prevention in Fintech: Comprehensive Strategies for Secure Online Account Opening.
  12. Komandla, V. Transforming Financial Interactions: Best Practices for Mobile Banking App Design and Functionality to Boost User Engagement and Satisfaction.
  13. Katari, A., & Rallabhandi, R. S. DELTA LAKE IN FINTECH: ENHANCING DATA LAKE RELIABILITY WITH ACID TRANSACTIONS.
  14. Thumburu, S. K. R. (2020). Enhancing Data Compliance in EDI Transactions. Innovative Computer Sciences Journal, 6(1).
  15. Thumburu, S. K. R. (2020). Leveraging APIs in EDI Migration Projects. MZ Computing Journal, 1(1).
  16. Gade, K. R. (2018). Real-Time Analytics: Challenges and Opportunities. Innovative Computer Sciences Journal, 4(1).