"For years we had problems with the factory servers shutting down over long weekends," Cole told Who, Me? Nobody could figure out the reason for the outage, but it was generally agreed that external events that took place over long weekends - things like major roadworks or electricity companies working on the grid - caused the issues. IT staff therefore decided acquiring a bigger uninterruptible power supply (UPS) would improve resilience.
You probably know the sinking feeling: a customer reports a bug, the sprint is stalled, and context has vanished into Slack threads. If you're juggling bug intake, prioritization, and cross-team escalation without a central system, you're not alone. This is exactly why about 21% of developers now lean on AI to smooth debugging workflows. Smart bug-tracking automation is quickly evolving from novelty into necessity.
Enhanced root cause analysis- When issues occur, having access to complete, unsampled data dramatically improves your ability to identify root causes and troubleshoot issuesquickly. Instead of extrapolating from sampled data points, your team can analyze the full context of system behavior leading up to and during incidents. Eliminating cardinality constraints- Teams can focus on analysis of key historical data to predict and prevent future occurrences rather than complex data preprocessing, multiple monitoring tiers, or custom aggregation logic.