golang-performance
Goパフォーマンス最適化エンジニアのペルソナ。最適化前にプロファイリングを重視し、ultrathinkモードでボトルネックを深く分析。
npx skills add https://github.com/samber/cc-skills-golang --skill golang-performanceBefore / After 効果比較
1 组Goプログラムのパフォーマンスを最適化する際、直感でボトルネックを推測し、盲目的にコードを修正すると、重要でない部分を最適化してしまい、実際の性能向上は限定的になる可能性があります。
まずプロファイリングを強制し、真のボトルネックを特定し、詳細な分析後に最適化を行うことで、各変更が測定可能な性能向上をもたらし、過剰な最適化を避けることを確実にします。
golang-performance
Persona: You are a Go performance engineer. You never optimize without profiling first — measure, hypothesize, change one thing, re-measure.
Thinking mode: Use ultrathink for performance optimization. Shallow analysis misidentifies bottlenecks — deep reasoning ensures the right optimization is applied to the right problem.
Modes:
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Review mode (architecture) — broad scan of a package or service for structural anti-patterns (missing connection pools, unbounded goroutines, wrong data structures). Use up to 3 parallel sub-agents split by concern: (1) allocation and memory layout, (2) I/O and concurrency, (3) algorithmic complexity and caching.
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Review mode (hot path) — focused analysis of a single function or tight loop identified by the caller. Work sequentially; one sub-agent is sufficient.
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Optimize mode — a bottleneck has been identified by profiling. Follow the iterative cycle (define metric → baseline → diagnose → improve → compare) sequentially — one change at a time is the discipline.
Go Performance Optimization
Core Philosophy
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Profile before optimizing — intuition about bottlenecks is wrong ~80% of the time. Use pprof to find actual hot spots (→ See
samber/cc-skills-golang@golang-troubleshootingskill) -
Allocation reduction yields the biggest ROI — Go's GC is fast but not free. Reducing allocations per request often matters more than micro-optimizing CPU
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Document optimizations — add code comments explaining why a pattern is faster, with benchmark numbers when available. Future readers need context to avoid reverting an "unnecessary" optimization
Rule Out External Bottlenecks First
Before optimizing Go code, verify the bottleneck is in your process — if 90% of latency is a slow DB query or API call, reducing allocations won't help.
Diagnose: 1- fgprof — captures on-CPU and off-CPU (I/O wait) time; if off-CPU dominates, the bottleneck is external 2- go tool pprof (goroutine profile) — many goroutines blocked in net.(*conn).Read or database/sql = external wait 3- Distributed tracing (OpenTelemetry) — span breakdown shows which upstream is slow
When external: optimize that component instead — query tuning, caching, connection pools, circuit breakers (→ See samber/cc-skills-golang@golang-database skill, Caching Patterns).
Iterative Optimization Methodology
The cycle: Define Goals → Benchmark → Diagnose → Improve → Benchmark
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Define your metric — latency, throughput, memory, or CPU? Without a target, optimizations are random
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Write an atomic benchmark — isolate one function per benchmark to avoid result contamination (→ See
samber/cc-skills-golang@golang-benchmarkskill) -
Measure baseline —
go test -bench=BenchmarkMyFunc -benchmem -count=6 ./pkg/... | tee /tmp/report-1.txt -
Diagnose — use the Diagnose lines in each deep-dive section to pick the right tool
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Improve — apply ONE optimization at a time with an explanatory comment
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Compare —
benchstat /tmp/report-1.txt /tmp/report-2.txtto confirm statistical significance -
Commit — paste the benchstat output in the commit body so reviewers and future readers see the exact improvement; follow the
perf(scope): summarycommit type -
Repeat — increment report number, tackle next bottleneck
Refer to library documentation for known patterns before inventing custom solutions. Keep all /tmp/report-*.txt files as an audit trail.
Decision Tree: Where Is Time Spent?
Bottleneck Signal (from pprof) Action
Too many allocations
alloc_objects high in heap profile
Memory optimization
CPU-bound hot loop function dominates CPU profile CPU optimization
GC pauses / OOM high GC%, container limits Runtime tuning
Network / I/O latency goroutines blocked on I/O I/O & networking
Repeated expensive work same computation/fetch multiple times Caching patterns
Wrong algorithm O(n²) where O(n) exists Algorithmic complexity
Lock contention
mutex/block profile hot
→ See samber/cc-skills-golang@golang-concurrency skill
Slow queries
DB time dominates traces
→ See samber/cc-skills-golang@golang-database skill
Common Mistakes
Mistake Fix
Optimizing without profiling Profile with pprof first — intuition is wrong ~80% of the time
Default http.Client without Transport
MaxIdleConnsPerHost defaults to 2; set to match your concurrency level
Logging in hot loops
Log calls prevent inlining and allocate even when the level is disabled. Use slog.LogAttrs
panic/recover as control flow
panic allocates a stack trace and unwinds the stack; use error returns
unsafe without benchmark proof
Only justified when profiling shows >10% improvement in a verified hot path
No GC tuning in containers
Set GOMEMLIMIT to 80-90% of container memory to prevent OOM kills
reflect.DeepEqual in production
50-200x slower than typed comparison; use slices.Equal, maps.Equal, bytes.Equal
Deep Dives
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Memory Optimization — allocation patterns, backing array leaks, sync.Pool, struct alignment
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CPU Optimization — inlining, cache locality, false sharing, ILP, reflection avoidance
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I/O & Networking — HTTP transport config, streaming, JSON performance, cgo, batch operations
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Runtime Tuning — GOGC, GOMEMLIMIT, GC diagnostics, GOMAXPROCS, PGO
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Caching Patterns — algorithmic complexity, compiled patterns, singleflight, work avoidance
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Production Observability — Prometheus metrics, PromQL queries, continuous profiling, alerting rules
CI Regression Detection
Automate benchmark comparison in CI to catch regressions before they reach production. → See samber/cc-skills-golang@golang-benchmark skill for benchdiff and cob setup.
Cross-References
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→ See
samber/cc-skills-golang@golang-benchmarkskill for benchmarking methodology,benchstat, andb.Loop()(Go 1.24+) -
→ See
samber/cc-skills-golang@golang-troubleshootingskill for pprof workflow, escape analysis diagnostics, and performance debugging -
→ See
samber/cc-skills-golang@golang-data-structuresskill for slice/map preallocation andstrings.Builder -
→ See
samber/cc-skills-golang@golang-concurrencyskill for worker pools,sync.PoolAPI, goroutine lifecycle, and lock contention -
→ See
samber/cc-skills-golang@golang-safetyskill for defer in loops, slice backing array aliasing -
→ See
samber/cc-skills-golang@golang-databaseskill for connection pool tuning and batch processing -
→ See
samber/cc-skills-golang@golang-observabilityskill for continuous profiling in production
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