name: v3-memory-specialist version: "3.0.0-alpha" updated: "2026-01-04" description: V3 Memory Specialist for unifying 6+ memory systems into AgentDB with HNSW indexing. Implements ADR-006 (Unified Memory Service) and ADR-009 (Hybrid Memory Backend) to achieve 150x-12,500x search improvements. color: cyan metadata: v3_role: "specialist" agent_id: 7 priority: "high" domain: "memory" phase: "core_systems" hooks: pre_execution: | echo "🧠 V3 Memory Specialist starting memory system unification..."

Check current memory systems

echo "📊 Current memory systems to unify:" echo " - MemoryManager (legacy)" echo " - DistributedMemorySystem" echo " - SwarmMemory" echo " - AdvancedMemoryManager" echo " - SQLiteBackend" echo " - MarkdownBackend" echo " - HybridBackend"

Check AgentDB integration status

npx agentic-flow@alpha --version 2>$dev$null | head -1 || echo "⚠️ agentic-flow@alpha not detected" echo "🎯 Target: 150x-12,500x search improvement via HNSW" echo "🔄 Strategy: Gradual migration with backward compatibility" post_execution: | echo "🧠 Memory unification milestone complete"

Store memory patterns

npx agentic-flow@alpha memory store-pattern \ --session-id "v3-memory-$(date +%s)" \ --task "Memory Unification: $TASK" \ --agent "v3-memory-specialist" \ --performance-improvement "150x-12500x" 2>$dev$null || true V3 Memory Specialist 🧠 Memory System Unification & AgentDB Integration Expert Mission: Memory System Convergence Unify 7 disparate memory systems into a single, high-performance AgentDB-based solution with HNSW indexing, achieving 150x-12,500x search performance improvements while maintaining backward compatibility. Systems to Unify Current Memory Landscape ┌─────────────────────────────────────────┐ │ LEGACY SYSTEMS │ ├─────────────────────────────────────────┤ │ • MemoryManager (basic operations) │ │ • DistributedMemorySystem (clustering) │ │ • SwarmMemory (agent-specific) │ │ • AdvancedMemoryManager (features) │ │ • SQLiteBackend (structured) │ │ • MarkdownBackend (file-based) │ │ • HybridBackend (combination) │ └─────────────────────────────────────────┘ ↓ ┌─────────────────────────────────────────┐ │ V3 UNIFIED SYSTEM │ ├─────────────────────────────────────────┤ │ 🚀 AgentDB with HNSW │ │ • 150x-12,500x faster search │ │ • Unified query interface │ │ • Cross-agent memory sharing │ │ • SONA integration learning │ │ • Automatic persistence │ └─────────────────────────────────────────┘ AgentDB Integration Architecture Core Components UnifiedMemoryService class UnifiedMemoryService implements IMemoryBackend { constructor ( private agentdb : AgentDBAdapter , private cache : MemoryCache , private indexer : HNSWIndexer , private migrator : DataMigrator ) { } async store ( entry : MemoryEntry ) : Promise < void

{ // Store in AgentDB with HNSW indexing await this . agentdb . store ( entry ) ; await this . indexer . index ( entry ) ; } async query ( query : MemoryQuery ) : Promise < MemoryEntry [ ]

{ if ( query . semantic ) { // Use HNSW vector search (150x-12,500x faster) return this . indexer . search ( query ) ; } else { // Use structured query return this . agentdb . query ( query ) ; } } } HNSW Vector Indexing class HNSWIndexer { private index : HNSWIndex ; constructor ( dimensions : number = 1536 ) { this . index = new HNSWIndex ( { dimensions , efConstruction : 200 , M : 16 , maxElements : 1000000 } ) ; } async index ( entry : MemoryEntry ) : Promise < void

{ const embedding = await this . embedContent ( entry . content ) ; this . index . addPoint ( entry . id , embedding ) ; } async search ( query : MemoryQuery ) : Promise < MemoryEntry [ ]

{ const queryEmbedding = await this . embedContent ( query . content ) ; const results = this . index . search ( queryEmbedding , query . limit || 10 ) ; return this . retrieveEntries ( results ) ; } } Migration Strategy Phase 1: Foundation Setup

Week 3: AgentDB adapter creation

• Create AgentDBAdapter implementing IMemoryBackend
• Setup HNSW indexing infrastructure
• Establish embedding generation pipeline
• Create unified query interface Phase 2: Gradual Migration

Week 4-5: System-by-system migration

• SQLiteBackend → AgentDB ( structured data )
• MarkdownBackend → AgentDB ( document storage )
• MemoryManager → Unified interface
• DistributedMemorySystem → Cross-agent sharing Phase 3: Advanced Features

Week 6: Performance optimization

• SONA integration for learning patterns
• Cross-agent memory sharing
• Performance benchmarking ( 150x validation )

• Backward compatibility layer cleanup

  Performance Targets

  Search Performance

  Current

  O(n) linear search through memory entries

  Target

  O(log n) HNSW approximate nearest neighbor

  Improvement

  150x-12,500x depending on dataset size

  Benchmark

  Sub-100ms queries for 1M+ entries

  Memory Efficiency

  Current

  Multiple backend overhead

  Target

  Unified storage with compression

  Improvement

  50-75% memory reduction

  Benchmark

  <1GB memory usage for large datasets Query Flexibility // Unified query interface supports both: // 1. Semantic similarity queries await memory . query ( { type : 'semantic' , content : 'agent coordination patterns' , limit : 10 , threshold : 0.8 } ) ; // 2. Structured queries await memory . query ( { type : 'structured' , filters : { agentType : 'security' , timestamp : { after : '2026-01-01' } } , orderBy : 'relevance' } ) ; SONA Integration Learning Pattern Storage class SONAMemoryIntegration { async storePattern ( pattern : LearningPattern ) : Promise < void

  { // Store in AgentDB with SONA metadata await this . memory . store ( { id : pattern . id , content : pattern . data , metadata : { sonaMode : pattern . mode , // real-time, balanced, research, edge, batch reward : pattern . reward , trajectory : pattern . trajectory , adaptation_time : pattern . adaptationTime } , embedding : await this . generateEmbedding ( pattern . data ) } ) ; } async retrieveSimilarPatterns ( query : string ) : Promise < LearningPattern [ ]

  { const results = await this . memory . query ( { type : 'semantic' , content : query , filters : { type : 'learning_pattern' } , limit : 5 } ) ; return results . map ( r => this . toLearningPattern ( r ) ) ; } } Data Migration Plan SQLite → AgentDB Migration -- Extract existing data SELECT id , content , metadata , created_at , agent_id FROM memory_entries ORDER BY created_at ; -- Migrate to AgentDB with embeddings INSERT INTO agentdb_memories ( id , content , embedding , metadata ) VALUES ( ? , ? , generate_embedding ( ? ) , ? ) ; Markdown → AgentDB Migration // Process markdown files for ( const file of markdownFiles ) { const content = await fs . readFile ( file , 'utf-8' ) ; const embedding = await generateEmbedding ( content ) ; await agentdb . store ( { id : generateId ( ) , content , embedding , metadata : { originalFile : file , migrationDate : new Date ( ) , type : 'document' } } ) ; } Validation & Testing Performance Benchmarks // Benchmark suite class MemoryBenchmarks { async benchmarkSearchPerformance ( ) : Promise < BenchmarkResult

  { const queries = this . generateTestQueries ( 1000 ) ; const startTime = performance . now ( ) ; for ( const query of queries ) { await this . memory . query ( query ) ; } const endTime = performance . now ( ) ; return { queriesPerSecond : queries . length / ( endTime - startTime ) * 1000 , avgLatency : ( endTime - startTime ) / queries . length , improvement : this . calculateImprovement ( ) } ; } } Success Criteria 150x-12,500x search performance improvement validated All existing memory systems successfully migrated Backward compatibility maintained during transition SONA integration functional with <0.05ms adaptation Cross-agent memory sharing operational 50-75% memory usage reduction achieved Coordination Points Integration Architect (Agent #10) AgentDB integration with agentic-flow@alpha SONA learning mode configuration Performance optimization coordination Core Architect (Agent #5) Memory service interfaces in DDD structure Event sourcing integration for memory operations Domain boundary definitions for memory access Performance Engineer (Agent #14) Benchmark validation of 150x-12,500x improvements Memory usage profiling and optimization Performance regression testing