Description

Golang performance optimization patterns and methodology - if X bottleneck, then apply Y. Covers allocation reduction, CPU efficiency, memory layout, GC tuni...

README (SKILL.md)

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:

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.
Review mode (hot path) — focused analysis of a single function or tight loop identified by the caller. Work sequentially; one sub-agent is sufficient.
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

Name: Golang Performance
Author: samber

Core Philosophy

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-troubleshooting skill)
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
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

Define your metric — latency, throughput, memory, or CPU? Without a target, optimizations are random
Write an atomic benchmark — isolate one function per benchmark to avoid result contamination (→ See samber/cc-skills-golang@golang-benchmark skill)
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
Improve — apply ONE optimization at a time with an explanatory comment
Compare — benchstat /tmp/report-1.txt /tmp/report-2.txt to confirm statistical significance
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

Memory Optimization — allocation patterns, backing array leaks, sync.Pool, struct alignment
CPU Optimization — inlining, cache locality, false sharing, ILP, reflection avoidance
I/O & Networking — HTTP transport config, streaming, JSON performance, cgo, batch operations
Runtime Tuning — GOGC, GOMEMLIMIT, GC diagnostics, GOMAXPROCS, PGO
Caching Patterns — algorithmic complexity, compiled patterns, singleflight, work avoidance
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

→ See samber/cc-skills-golang@golang-benchmark skill for benchmarking methodology, benchstat, and b.Loop() (Go 1.24+)
→ See samber/cc-skills-golang@golang-troubleshooting skill for pprof workflow, escape analysis diagnostics, and performance debugging
→ See samber/cc-skills-golang@golang-data-structures skill for slice/map preallocation and strings.Builder
→ See samber/cc-skills-golang@golang-concurrency skill for worker pools, sync.Pool API, goroutine lifecycle, and lock contention
→ See samber/cc-skills-golang@golang-safety skill for defer in loops, slice backing array aliasing
→ See samber/cc-skills-golang@golang-database skill for connection pool tuning and batch processing
→ See samber/cc-skills-golang@golang-observability skill for continuous profiling in production

Usage Guidance

This skill appears coherent and appropriate for Go performance work. Before installing, confirm you are comfortable letting the agent run Go commands on your machine (it will build the standard benchstat tool). Review any commands the skill suggests running in production — e.g., the guidance that recommends compiling on production hardware is an operational tip but can be risky; prefer building in CI/CD or on a staging environment unless you understand the implications. The skill references pushing profiling data to external services (Pyroscope, Datadog, etc.); only configure those endpoints you control and avoid leaking credentials or telemetry to unknown servers. Finally, because this skill can invoke tools (benchstat, pprof, fgprof, curl, perf), ensure the agent's runtime permissions are limited to environments where running profiling/bench commands is safe and allowed.

Capability Analysis

Type: OpenClaw Skill Name: golang-performance Version: 1.1.2 The bundle is a highly technical and well-documented toolkit for Go performance optimization. It provides comprehensive reference materials on memory layout, GC tuning, and CPU profiling, along with an extensive evaluation suite (evals.json) to ensure the agent follows best practices like profiling before optimizing. While the skill requests broad permissions such as Bash access and WebFetch, these are contextually justified for tasks like installing 'benchstat', running 'perf', and interacting with local 'pprof' endpoints as described in the documentation. No evidence of malicious intent, data exfiltration, or harmful prompt injection was found.

Capability Assessment

✓ Purpose & Capability

Name/description (Go performance guidance) match the declared requirements: `go` and `benchstat` are appropriate and the install spec only builds `benchstat` from the official golang.org/x/perf module. Allowed tooling (pprof, fgprof, benchstat, perf, fieldalignment, etc.) aligns with performance diagnostics and optimization tasks.

ℹ Instruction Scope

SKILL.md contains detailed, prescriptive guidance on profiling, benchmarking, and optimization (pprof, fgprof, go test -bench, benchstat, sync.Pool, memory/layout guidance). This stays within the stated purpose. One operational recommendation (e.g., "compile on production hardware" in CPU guidance) is an operational risk if followed blindly — it's an example/optimization tactic rather than a requirement, so treat it cautiously. The skill does not instruct reading unrelated system secrets or exfiltrating data.

✓ Install Mechanism

Install spec uses `go` to install `golang.org/x/perf/cmd/benchstat@latest`, a well-known, canonical Go module for benchstat. This builds a benign utility and creates a `benchstat` binary; no downloads from personal servers or archives are present.

✓ Credentials

The skill requests no environment variables, no credentials, and no config paths. Examples reference pushing profiles to monitoring endpoints (Pyroscope, Datadog, etc.) but those are examples and not required by the skill. No disproportionate secret access is requested.

✓ Persistence & Privilege

Skill is not always-enabled (always: false) and makes no requests to modify other skills or global agent settings. Its install behavior is limited to building a single helper binary and standard local file usage (e.g., /tmp/report-*.txt) for bench outputs.

Version History

v1.1.2

golang-performance 1.1.2 - Added AskUserQuestion to allowed tools for improved agent interactivity. - Updated metadata version. - No user-facing behavior changes to performance methodology or reference sections.

v1.1.1

golang-performance v1.1.1 - Skill renamed from "golang-troubleshooting" to "golang-performance", focusing on Go performance optimization patterns and methodologies. - Old debugging and troubleshooting guides, along with related reference files, removed. - New in-depth optimization guides added for memory, CPU, I/O, runtime tuning, caching, and observability. - Prometheus alert template and benchmarking/observability references introduced. - Evaluation definition updated to align with performance focus and new methodology. - Improved guidance on review/optimize modes, cross-references to related skills, and contextual "when to use" instructions.

v1.0.0

- Initial release of systematic Go troubleshooting skill. - Provides a structured decision tree to diagnose bugs, crashes, deadlocks, and logic errors in Go programs. - Outlines step-by-step debugging methodology, emphasizing root cause analysis and reproducibility. - Includes guidance on tools such as Delve, pprof, and race detector, with escalation advice. - Enforces "no fix without root cause" and evidence-based debugging practices for reliable issue resolution.

Metadata

Slug golang-performance

Version 1.1.2

License MIT-0

All-time Installs 0

Active Installs 0

Total Versions 3

Frequently Asked Questions

What is Golang Performance?

Golang performance optimization patterns and methodology - if X bottleneck, then apply Y. Covers allocation reduction, CPU efficiency, memory layout, GC tuni... It is an AI Agent Skill for Claude Code / OpenClaw, with 208 downloads so far.

How do I install Golang Performance?

Run "/install golang-performance" in the OpenClaw or Claude Code chat to install it in one step — no extra setup required.

Is Golang Performance free?

Yes, Golang Performance is completely free, licensed under MIT-0. You can download, install and use it at no cost.

Which platforms does Golang Performance support?

Golang Performance is cross-platform and runs anywhere OpenClaw / Claude Code is available (cross-platform).

Who created Golang Performance?

It is built and maintained by Samuel Berthe (@samber); the current version is v1.1.2.

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