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Reducing incident diagnosis from hours to minutes: A case from banking practice

byAytun Çelebi
February 13, 2026
in Industry
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In large financial systems, failures rarely appear as isolated events. A delayed transaction, a timeout, or an unexpected error is often the visible outcome of a chain of interactions across multiple services. Identifying where that chain begins – and why it breaks – can take far longer than resolving the issue itself.

Reducing incident diagnosis from hours to minutes: A case from banking practiceFor years, incident diagnosis in banking environments relied on manual analysis. Engineers would trace requests across services, compare logs from different systems, and reconstruct sequences of events step by step. This process required experience and intuition, but it also introduced delays, especially when systems scaled and dependencies multiplied.

Natallia Kalivoshka, a Principal Software Engineer at a major Russian financial institution, worked on changing that process in practice. Her approach did not start with machine learning models or automation tools. It began with a more fundamental question: how to make system behavior observable in a consistent and structured way.

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At the time, operational data existed in abundance – logs, metrics, traces but lacked uniformity. Different services produced information in different formats, correlations between events were incomplete, and diagnosing incidents often meant assembling fragments from multiple sources. The challenge was not the absence of data, but the absence of structure.

Kalivoshka focused on introducing that structure at the system level. She worked on standardizing logging practices, defining consistent formats for metrics, and ensuring that every operation could be traced end-to-end across services. This included the use of correlation identifiers and unified models for statuses and errors, allowing events to be linked into a coherent sequence rather than examined in isolation.

Once this foundation was established, the nature of incident analysis began to change. Instead of manually reconstructing events, engineers could observe complete operation lifecycles. Patterns that were previously difficult to detect became visible through structured data.

Building on this, Kalivoshka initiated the introduction of an AIOps-oriented approach to operational analysis. By organizing telemetry into a consistent data layer, her work enabled the application of machine learning techniques for anomaly detection and incident clustering. These models did not replace engineering judgment, but they provided a way to highlight unusual behavior and group related signals automatically.

The effect of this shift was measurable. In practical terms, primary triage for typical incidents moved from hours of manual log correlation to minutes. Engineers no longer needed to start from scattered signals; they could begin with a structured view of the system state and focus on interpretation rather than reconstruction.

This change also influenced how teams approached reliability. With clearer visibility into system behavior, it became possible to identify recurring patterns, detect early signs of degradation, and refine system design based on observed data. Diagnosis was no longer a reactive process alone – it became part of a continuous feedback loop.

Kalivoshka’s work extended beyond tooling into engineering practices. She contributed to defining requirements for observability as part of system design, rather than treating it as an afterthought. Logging, tracing, and monitoring were incorporated into development standards, ensuring that new components would be diagnosable from the moment they entered production.

Her role also involved coordinating across teams responsible for different parts of the system. In a distributed environment, consistency depends not only on individual services but on how those services interact. Aligning teams around shared standards for telemetry and diagnostics was essential for achieving system-wide visibility.

The broader implication of this case is not limited to a single system or organization. As banking platforms continue to evolve into distributed architectures, the ability to diagnose incidents efficiently becomes a defining aspect of operational maturity. Manual approaches that once worked at smaller scale become increasingly difficult to sustain.

Kalivoshka’s experience illustrates how this transition can be approached in practice. Rather than introducing isolated tools, her work focused on creating a structured environment where data, processes, and analysis methods are aligned. The result is not only faster diagnosis, but also a more transparent and manageable system.

In modern banking, where systems operate continuously and at scale, the difference between hours and minutes in incident response is more than a technical detail. It shapes how teams work, how systems evolve, and how reliability is maintained over time.

Through this case, Natallia Kalivoshka’s work highlights a broader shift – from reactive troubleshooting to structured, data-driven system understanding. And in that shift, the role of engineering extends beyond building systems to making them interpretable under real-world conditions.


Featured image credit

Tags: bankingtrends

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