Jesús Pérez d14150da75 feat: Phase 5.3 - Multi-Agent Learning Infrastructure

Implement intelligent agent learning from Knowledge Graph execution history
with per-task-type expertise tracking, recency bias, and learning curves.

## Phase 5.3 Implementation

### Learning Infrastructure (✅ Complete)
- LearningProfileService with per-task-type expertise metrics
- TaskTypeExpertise model tracking success_rate, confidence, learning curves
- Recency bias weighting: recent 7 days weighted 3x higher (exponential decay)
- Confidence scoring prevents overfitting: min(1.0, executions / 20)
- Learning curves computed from daily execution windows

### Agent Scoring Service (✅ Complete)
- Unified AgentScore combining SwarmCoordinator + learning profiles
- Scoring formula: 0.3*base + 0.5*expertise + 0.2*confidence
- Rank agents by combined score for intelligent assignment
- Support for recency-biased scoring (recent_success_rate)
- Methods: rank_agents, select_best, rank_agents_with_recency

### KG Integration (✅ Complete)
- KGPersistence::get_executions_for_task_type() - query by agent + task type
- KGPersistence::get_agent_executions() - all executions for agent
- Coordinator::load_learning_profile_from_kg() - core KG→Learning integration
- Coordinator::load_all_learning_profiles() - batch load for multiple agents
- Convert PersistedExecution → ExecutionData for learning calculations

### Agent Assignment Integration (✅ Complete)
- AgentCoordinator uses learning profiles for task assignment
- extract_task_type() infers task type from title/description
- assign_task() scores candidates using AgentScoringService
- Fallback to load-based selection if no learning data available
- Learning profiles stored in coordinator.learning_profiles RwLock

### Profile Adapter Enhancements (✅ Complete)
- create_learning_profile() - initialize empty profiles
- add_task_type_expertise() - set task-type expertise
- update_profile_with_learning() - update swarm profiles from learning

## Files Modified

### vapora-knowledge-graph/src/persistence.rs (+30 lines)
- get_executions_for_task_type(agent_id, task_type, limit)
- get_agent_executions(agent_id, limit)

### vapora-agents/src/coordinator.rs (+100 lines)
- load_learning_profile_from_kg() - core KG integration method
- load_all_learning_profiles() - batch loading for agents
- assign_task() already uses learning-based scoring via AgentScoringService

### Existing Complete Implementation
- vapora-knowledge-graph/src/learning.rs - calculation functions
- vapora-agents/src/learning_profile.rs - data structures and expertise
- vapora-agents/src/scoring.rs - unified scoring service
- vapora-agents/src/profile_adapter.rs - adapter methods

## Tests Passing
- learning_profile: 7 tests ✅
- scoring: 5 tests ✅
- profile_adapter: 6 tests ✅
- coordinator: learning-specific tests ✅

## Data Flow
1. Task arrives → AgentCoordinator::assign_task()
2. Extract task_type from description
3. Query KG for task-type executions (load_learning_profile_from_kg)
4. Calculate expertise with recency bias
5. Score candidates (SwarmCoordinator + learning)
6. Assign to top-scored agent
7. Execution result → KG → Update learning profiles

## Key Design Decisions
✅ Recency bias: 7-day half-life with 3x weight for recent performance
✅ Confidence scoring: min(1.0, total_executions / 20) prevents overfitting
✅ Hierarchical scoring: 30% base load, 50% expertise, 20% confidence
✅ KG query limit: 100 recent executions per task-type for performance
✅ Async loading: load_learning_profile_from_kg supports concurrent loads

## Next: Phase 5.4 - Cost Optimization
Ready to implement budget enforcement and cost-aware provider selection.

2026-01-11 13:03:53 +00:00

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VAPORA Provisioning Integration

Integration documentation for deploying VAPORA v1.0 using Provisioning.

Overview

VAPORA can be deployed using Provisioning, a Rust-based infrastructure-as-code platform that manages Kubernetes clusters, services, and workflows.

The Provisioning workspace is located at: /Users/Akasha/Development/vapora/provisioning/vapora-wrksp/

Provisioning Workspace Structure

provisioning/vapora-wrksp/
├── workspace.toml          # Master configuration
├── kcl/                    # Infrastructure schemas (KCL)
│   ├── cluster.k           # Cluster definition
│   ├── namespace.k         # Namespace configuration
│   ├── backend.k           # Backend deployment
│   ├── frontend.k          # Frontend deployment
│   └── agents.k            # Agent deployment
├── taskservs/              # Service definitions (TOML)
│   ├── surrealdb.toml      # SurrealDB service
│   ├── nats.toml           # NATS service
│   ├── backend.toml        # Backend service
│   ├── frontend.toml       # Frontend service
│   └── agents.toml         # Agents service
└── workflows/              # Batch operations (YAML)
    ├── deploy-full-stack.yaml
    ├── deploy-infra.yaml
    ├── deploy-services.yaml
    └── health-check.yaml

Integration Points

1. Cluster Management

Provisioning creates and manages the Kubernetes cluster:

cd provisioning/vapora-wrksp
provisioning cluster create --config workspace.toml

This creates:

K3s/RKE2 cluster
Storage class (Rook Ceph or local-path)
Ingress controller (nginx)
Service mesh (optional Istio)

2. Service Deployment

Services are defined in taskservs/ and deployed via workflows:

provisioning workflow run workflows/deploy-full-stack.yaml

This deploys all VAPORA components in order:

SurrealDB (StatefulSet)
NATS JetStream (Deployment)
Backend API (Deployment)
Frontend UI (Deployment)
Agents (Deployment)
MCP Server (Deployment)

3. Infrastructure as Code (KCL)

KCL schemas in kcl/ define infrastructure resources:

Example: kcl/backend.k

schema BackendDeployment:
    name: str = "vapora-backend"
    namespace: str = "vapora"
    replicas: int = 2
    image: str = "vapora/backend:latest"
    port: int = 8080

    env:
        SURREALDB_URL: str = "http://surrealdb:8000"
        NATS_URL: str = "nats://nats:4222"
        JWT_SECRET: str = "${SECRET:jwt-secret}"

4. Taskserv Definitions

Taskservs define how services are deployed and managed:

Example: taskservs/backend.toml

[service]
name = "vapora-backend"
type = "deployment"
namespace = "vapora"

[deployment]
replicas = 2
image = "vapora/backend:latest"
port = 8080

[health]
liveness = "/health"
readiness = "/health"

[dependencies]
requires = ["surrealdb", "nats"]

5. Workflows

Workflows orchestrate complex deployment tasks:

Example: workflows/deploy-full-stack.yaml

name: deploy-full-stack
description: Deploy complete VAPORA stack

steps:
  - name: create-namespace
    taskserv: namespace
    action: create

  - name: deploy-database
    taskserv: surrealdb
    action: deploy
    wait: true

  - name: deploy-messaging
    taskserv: nats
    action: deploy
    wait: true

  - name: deploy-services
    parallel: true
    tasks:
      - taskserv: backend
      - taskserv: frontend
      - taskserv: agents
      - taskserv: mcp-server

  - name: health-check
    action: validate

Provisioning vs. Vanilla K8s

Aspect	Provisioning	Vanilla K8s
Cluster Creation	Automated (RKE2/K3s)	Manual
Service Mesh	Optional Istio	Manual
Secrets	RustyVault integration	kubectl create secret
Workflows	Declarative YAML	Manual kubectl
Rollback	Built-in	Manual
Monitoring	Prometheus auto-configured	Manual

Advantages of Provisioning

Unified Management: Single tool for cluster, services, and workflows
Type Safety: KCL schemas provide compile-time validation
Reproducibility: Infrastructure and services defined as code
Dependency Management: Automatic service ordering
Secret Management: Integration with RustyVault
Rollback: Automatic rollback on failure

Migration from Vanilla K8s

If you have an existing K8s deployment using /kubernetes/ manifests:

Import existing manifests:

provisioning import kubernetes/*.yaml --output kcl/

Generate taskservs:

provisioning taskserv generate --from-kcl kcl/*.k

Create workflow:

provisioning workflow create --interactive

Deploy:

provisioning workflow run workflows/deploy-full-stack.yaml

Deployment Workflow

Using Provisioning (Recommended for Production)

# 1. Navigate to workspace
cd provisioning/vapora-wrksp

# 2. Validate configuration
provisioning validate --all

# 3. Create cluster
provisioning cluster create --config workspace.toml

# 4. Deploy infrastructure
provisioning workflow run workflows/deploy-infra.yaml

# 5. Deploy services
provisioning workflow run workflows/deploy-services.yaml

# 6. Health check
provisioning workflow run workflows/health-check.yaml

# 7. Monitor
provisioning health-check --all

Using Vanilla K8s (Manual)

# Use vanilla K8s manifests
cd /Users/Akasha/Development/vapora
nu scripts/deploy-k8s.nu

Validation

To validate Provisioning configuration without executing:

# From project root
nu scripts/validate-provisioning.nu

This checks:

Workspace exists
KCL schemas are valid
Taskserv definitions exist
Workflows are well-formed

Next Steps

Review Configuration:
- Update workspace.toml with your cluster details
- Modify KCL schemas for your environment
- Adjust resource limits in taskservs
Test Locally:
- Use K3s for local testing
- Validate with --dry-run flag
Deploy to Production:
- Use RKE2 for production cluster
- Enable Istio service mesh
- Configure external load balancer
Monitor:
- Use built-in Prometheus/Grafana
- Configure alerting
- Set up log aggregation

Troubleshooting

Provisioning not installed

# Install Provisioning (Rust-based)
cargo install provisioning-cli

Workspace validation fails

cd provisioning/vapora-wrksp
provisioning validate --verbose

Deployment stuck

# Check workflow status
provisioning workflow status <workflow-id>

# View logs
provisioning logs --taskserv backend

# Rollback
provisioning rollback --to-version <version>

Documentation References

Provisioning Documentation: See provisioning/vapora-wrksp/README.md
KCL Language Guide: https://kcl-lang.io/docs/
Taskserv Specification: provisioning/vapora-wrksp/taskservs/README.md
Workflow Syntax: provisioning/vapora-wrksp/workflows/README.md

Notes

IMPORTANT: Provisioning integration is validated but not executed in this phase
All configuration files exist and are valid
Deployment using Provisioning is deferred for manual production deployment
For immediate testing, use vanilla K8s deployment: nu scripts/deploy-k8s.nu
Provisioning provides advanced features (service mesh, auto-scaling, rollback)
Vanilla K8s deployment is simpler and requires less infrastructure

Support

For issues related to:

VAPORA deployment: Check /kubernetes/README.md and DEPLOYMENT.md
Provisioning workspace: See provisioning/vapora-wrksp/README.md
Scripts: Run nu scripts/<script-name>.nu --help

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