ICNGC 2025 The 11th International Conference on Next Generation Computing 2025 (2025.12)바로가기
페이지
pp.307-310
저자
Omar Bin Kasim Bhuian, Sang-Hoon Choi, Young-Soo Kim, Hongri Liu, Ki-Woong Park
언어
영어(ENG)
URL
https://www.earticle.net/Article/A478521
원문정보
초록
영어
In this study we evaluate a production-style OpenTelemetry (OTel) pipeline on Google Kubernetes Engine (GKE) Autopilot under a sustained trace workload, instrumenting end-to-end ingestion→processing→export and scraping Collector self-telemetry and spanmetrics with Prometheus over a 30-minute run. The Collector averaged 573 spans/s accepted and 561 spans/s exported, yielding 97.84% within-window export efficiency and peaking near 924 spans/s. A brief saturation interval (150 s) produced a queue peak of 6.38, short drops (peak 3.49 spans/s, ~358 total), and p95 inflation to 116 ms; median latency remained low (p50 ≈ 12.9 ms) and recovered after pressure subsided. Resource footprint was modest (≈0.36 CPU cores, 0.21 GiB memory, sub-Mbps network), indicating headroom. We document integration pitfalls (OTLP endpoint/protocol) and show that queue growth and exporter errors anticipate p95 tails. The study contributes reproducible methodology, quantitative evidence of cloud-scale OTel scalability, and operator guidance for capacity planning and alert design.
목차
Abstract I. INTRODUCTION AND BACKGROUND II. SYSTEM AND METHODOLOGY III. RESULTS A. Throughput and Export Efficiency B. Latency and Tail Behavior C. Ackpressure and Drops D. Resource Footprint IV. DISCUSSION V. CONCLUSION AND FUTURE WORK ACKNOWLEDGMENT REFERENCES