--- layout: default --- # Framework Comparison How Go Micro compares to other Go microservices frameworks. ## Quick Comparison | Feature | Go Micro | go-kit | gRPC | Dapr | |---------|----------|--------|------|------| | **Learning Curve** | Low | High | Medium | Medium | | **Boilerplate** | Low | High | Medium | Low | | **Plugin System** | Built-in | External | Limited | Sidecar | | **Service Discovery** | Yes (mDNS, Consul, etc) | No (BYO) | No | Yes | | **Load Balancing** | Client-side | No | No | Sidecar | | **Pub/Sub** | Yes | No | No | Yes | | **Transport** | HTTP, gRPC, NATS | BYO | gRPC only | HTTP, gRPC | | **Zero-config Dev** | Yes (mDNS) | No | No | No (needs sidecar) | | **Production Ready** | Yes | Yes | Yes | Yes | | **Language** | Go only | Go only | Multi-language | Multi-language | ## vs go-kit ### go-kit Philosophy - "Just a toolkit" - minimal opinions - Compose your own framework - Maximum flexibility - Requires more decisions upfront ### Go Micro Philosophy - "Batteries included" - opinionated defaults - Swap components as needed - Progressive complexity - Get started fast, customize later ### When to Choose go-kit - You want complete control over architecture - You have strong opinions about structure - You're building a custom framework - You prefer explicit over implicit ### When to Choose Go Micro - You want to start coding immediately - You prefer conventions over decisions - You want built-in service discovery - You need pub/sub messaging ### Code Comparison **go-kit** (requires more setup): ```go // Define service interface type MyService interface { DoThing(ctx context.Context, input string) (string, error) } // Implement service type myService struct{} func (s *myService) DoThing(ctx context.Context, input string) (string, error) { return "result", nil } // Create endpoints func makeDo ThingEndpoint(svc MyService) endpoint.Endpoint { return func(ctx context.Context, request interface{}) (interface{}, error) { req := request.(doThingRequest) result, err := svc.DoThing(ctx, req.Input) if err != nil { return doThingResponse{Err: err}, nil } return doThingResponse{Result: result}, nil } } // Create transport (HTTP, gRPC, etc) // ... more boilerplate ... ``` **Go Micro** (simpler): ```go type MyService struct{} type Request struct { Input string `json:"input"` } type Response struct { Result string `json:"result"` } func (s *MyService) DoThing(ctx context.Context, req *Request, rsp *Response) error { rsp.Result = "result" return nil } func main() { svc := micro.NewService("myservice") svc.Init() svc.Handle(new(MyService)) svc.Run() } ``` ## vs gRPC ### gRPC Focus - High-performance RPC - Multi-language support via protobuf - HTTP/2 transport - Streaming built-in ### Go Micro Scope - Full microservices framework - Service discovery - Multiple transports (including gRPC) - Pub/sub messaging - Pluggable components ### When to Choose gRPC - You need multi-language services - Performance is critical - You want industry-standard protocol - You're okay managing service discovery separately ### When to Choose Go Micro - You need more than just RPC (pub/sub, discovery, etc) - You want flexibility in transport - You're building Go-only services - You want integrated tooling ### Integration You can use gRPC with Go Micro for native gRPC compatibility: ```go import ( grpcServer "go-micro.dev/v6/server/grpc" grpcClient "go-micro.dev/v6/client/grpc" ) svc := micro.NewService("myservice", micro.Server(grpcServer.NewServer()), micro.Client(grpcClient.NewClient()), ) ``` See [Native gRPC Compatibility](grpc-compatibility.md) for a complete guide. ## vs Dapr ### Dapr Approach - Multi-language via sidecar - Rich building blocks (state, pub/sub, bindings) - Cloud-native focused - Requires running sidecar process ### Go Micro Approach - Go library, no sidecar - Direct service-to-service calls - Simpler deployment - Lower latency (no extra hop) ### When to Choose Dapr - You have polyglot services (Node, Python, Java, etc) - You want portable abstractions across clouds - You're fully on Kubernetes - You need state management abstractions ### When to Choose Go Micro - You're building Go services - You want lower latency - You prefer libraries over sidecars - You want simpler deployment (no sidecar management) ## vs Agent Frameworks (Google ADK) [ADK](https://adk.dev/) (Agent Development Kit) is Google's open-source, code-first framework for building AI agents. It spans several languages (Python, TypeScript, Go, Java, Kotlin); [`adk-go`](https://github.com/google/adk-go) is the Go implementation. It's model-agnostic (optimized for Gemini), speaks MCP and A2A, and supports multi-agent systems, evaluation, and deployment to Cloud Run / GKE. They overlap on agents but solve different problems. ADK is a library for building an agent process — you define an agent, its tools, and a model, then run and deploy it. Go Micro is the harness around agents once they operate real systems: service discovery, inter-service RPC, pub/sub, durable flows, tool execution, and deployment. Those pieces are out of scope for ADK, and you bring your own. In Go Micro an agent is built as an ordinary service: it registers in the registry, is callable by RPC (`Agent.Chat`) and over A2A, and other services and agents discover and call it the same way they call anything else. Its endpoints are exposed as MCP tools automatically. So once you have more than one agent or service, Go Micro also gives you the discovery, RPC, pub/sub, config, and deployment around them. | | Go Micro | Google ADK | |---|----------|------------| | **Primary unit** | A harnessed service (an agent is a service with an LLM inside) | An agent | | **Service discovery / registry** | Built-in (mDNS, Consul, etcd) | Not in scope | | **Inter-service RPC, load balancing, pub/sub** | Built-in | Not in scope | | **MCP** | Every service endpoint is automatically an MCP tool (no extra code) | MCP tools, wired explicitly | | **A2A** | Agents are A2A-reachable services | Supported | | **Deterministic orchestration** | Flows | Graph workflows | | **Multi-agent** | Agents discover & call each other via the registry; `plan`/`delegate` built in | Composition, routing, workflow patterns | | **Evaluation suite** | Harnesses/conformance today; first-class evaluation is a gap | Yes (criteria, user/env simulation, metrics) | | **Context engineering** | Store-backed memory | "Context as source code" (auto filter/summarize/token tracking) | | **Languages** | Go | Python, TypeScript, Go, Java, Kotlin | | **Backing** | Community | Google | ### When to choose ADK - You want an agent framework with first-class **evaluation** and context tooling - You're polyglot, or invested in the Google Cloud / Gemini ecosystem - You want a cross-language A2A ecosystem with Google's backing ### When to choose Go Micro - You want an **agent harness** where agents and services are the same thing — registered, discoverable, load-balanced, and deployed the same way - You want your existing services to become agent tools with **zero extra code** (every endpoint is an MCP tool automatically) - You're building in Go and want one set of primitives for services, agents, and flows ### They interoperate Both speak **MCP** and **A2A**, so this isn't strictly either/or: a Go Micro agent and an ADK agent (in any language) can call each other over A2A, and either can consume the other's MCP tools. A common pattern is to run Go Micro as the service mesh / runtime and let ADK (or any A2A agent) plug into it. ## vs tRPC-Agent-Go [tRPC-Agent-Go](https://github.com/trpc-group/trpc-agent-go) (maintained by tRPC-Group, validated inside Tencent) is a production-grade Go framework for agent systems: LLM / Chain / Parallel / Cycle / Graph agents, function tools, MCP, A2A, AG-UI, Redis memory and RAG, evaluation, agent self-evolution, and OpenTelemetry. It's a serious, well-resourced project. They overlap heavily on agents but take a different approach. tRPC-Agent-Go is an **agent SDK you run alongside your services** — you compose agents and tools into graphs and conditional workflows, and your microservices (tRPC) live separately and are called into. Go Micro starts from the premise that **an agent is a service** — one runtime where every endpoint is automatically a tool, an agent registers and is discovered and load-balanced like anything else, and workflows are durable code paths rather than a graph DSL. The premise is that the line between "your services" and "your agents" is accidental complexity; remove it and there's less to wire and keep in sync. | | Go Micro | tRPC-Agent-Go | |---|----------|---------------| | **Primary unit** | A harnessed service (an agent is a service with an LLM inside) | An agent | | **Orchestration** | Durable `flow` steps + `Loop` — plain code paths | Graph / Chain / Parallel / Cycle agents (graph DSL) | | **Services as tools** | Every endpoint is automatically an MCP tool | Function tools + MCP, wired explicitly | | **Service runtime** | Built in — agents *are* services (registry, RPC, load balancing, pub/sub) | Runs alongside your existing service stack (tRPC) | | **MCP / A2A** | Both, generated from the registry | Both | | **Evaluation / self-evolution** | Verification loop on the roadmap; not yet first-class | First-class today | | **Memory / RAG** | Store-backed memory (Postgres, NATS KV, file); RAG on the roadmap | In-memory / Redis memory; RAG today | | **Observability** | OpenTelemetry run timelines, `micro runs` | OpenTelemetry, Langfuse examples | | **Backing** | Independent, community | tRPC-Group / Tencent | ### When to choose tRPC-Agent-Go - You want a graph/workflow DSL for composing agents and tools - You're on tRPC, or want to add agents alongside an existing service stack - You want first-class evaluation and self-evolution today, with a large team behind it ### When to choose Go Micro - You want one runtime where services, agents, and flows are the same primitives — registered, discoverable, and deployed the same way - You want your existing services to become agent tools with zero extra code - You prefer durable flows and plain code paths over a graph DSL, in a small, independent framework you can hold in your head ### They interoperate Both speak **MCP** and **A2A**, so a Go Micro agent and a tRPC-Agent-Go agent can call each other over A2A, and either can consume the other's MCP tools. You can run Go Micro as the service-and-agent runtime and still reach an agent built on tRPC-Agent-Go. ## Feature Deep Dive ### Service Discovery **Go Micro**: Built-in with plugins ```go // Zero-config for dev svc := micro.NewService("myservice") // Consul for production reg := consul.NewRegistry() svc := micro.NewService("myservice", micro.Registry(reg)) ``` **go-kit**: Bring your own ```go // You implement service discovery // Can be 100+ lines of code ``` **gRPC**: No built-in discovery ```go // Use external solution like Consul // or service mesh like Istio ``` ### Load Balancing **Go Micro**: Client-side, pluggable strategies ```go // Built-in: random, round-robin selector := selector.NewSelector( selector.SetStrategy(selector.RoundRobin), ) ``` **go-kit**: Manual implementation ```go // You implement load balancing // Using loadbalancer package ``` **gRPC**: Via external load balancer ```bash # Use external LB like Envoy, nginx ``` ### Pub/Sub **Go Micro**: First-class ```go broker.Publish("topic", &broker.Message{Body: []byte("data")}) broker.Subscribe("topic", handler) ``` **go-kit**: Not provided ```go // Use external message broker directly // NATS, Kafka, etc ``` **gRPC**: Streaming only ```go // Use bidirectional streams // Not traditional pub/sub ``` ## Migration Paths See specific migration guides: - [From gRPC](migration/from-grpc.md) **Coming Soon:** - From go-kit - From Standard Library ## Decision Matrix Choose **Go Micro** if: - ✅ Building Go microservices - ✅ Want fast iteration - ✅ Need service discovery - ✅ Want pub/sub built-in - ✅ Prefer conventions Choose **go-kit** if: - ✅ Want maximum control - ✅ Have strong architectural opinions - ✅ Building custom framework - ✅ Prefer explicit composition Choose **gRPC** if: - ✅ Need multi-language support - ✅ Performance is primary concern - ✅ Just need RPC (not full framework) - ✅ Have service discovery handled Choose **Dapr** if: - ✅ Polyglot services - ✅ Heavy Kubernetes usage - ✅ Want portable cloud abstractions - ✅ Need state management ## Performance Rough benchmarks (requests/sec, single instance): | Framework | Simple RPC | With Discovery | With Tracing | |-----------|-----------|----------------|--------------| | Go Micro | ~20k | ~18k | ~15k | | gRPC | ~25k | N/A | ~20k | | go-kit | ~22k | N/A | ~18k | | HTTP std | ~30k | N/A | N/A | *Benchmarks are approximate and vary by configuration* ## Community & Ecosystem - **Go Micro**: Active, growing plugins - **gRPC**: Huge, multi-language - **go-kit**: Mature, stable - **Dapr**: Growing, Microsoft-backed ## Recommendation Start with **Go Micro** if you're building Go microservices and want to move fast. You can always: - Use gRPC transport: `micro.Transport(grpc.NewTransport())` - Integrate with go-kit components - Mix and match as needed The pluggable architecture means you're not locked in.