mirror of https://github.com/ruvnet/RuVector.git synced 2026-05-25 15:03:46 +00:00

feat(postgres): Add 53 SQL function definitions for all advanced modules (#46 )

* feat(postgres): Add 7 advanced AI modules to ruvector-postgres

Comprehensive implementation of advanced AI capabilities:

## New Modules (23,541 lines of code)

### 1. Self-Learning / ReasoningBank (`src/learning/`)
- Trajectory tracking for query optimization
- Pattern extraction using K-means clustering
- ReasoningBank for pattern storage and matching
- Adaptive search parameter optimization

### 2. Attention Mechanisms (`src/attention/`)
- Scaled dot-product attention (core)
- Multi-head attention with parallel heads
- Flash Attention v2 (memory-efficient)
- 10 attention types with PostgresEnum support

### 3. GNN Layers (`src/gnn/`)
- Message passing framework
- GCN (Graph Convolutional Network)
- GraphSAGE with mean/max aggregation
- Configurable aggregation methods

### 4. Hyperbolic Embeddings (`src/hyperbolic/`)
- Poincaré ball model
- Lorentz hyperboloid model
- Hyperbolic distance metrics
- Möbius operations

### 5. Sparse Vectors (`src/sparse/`)
- COO format sparse vector type
- Efficient sparse-sparse distance functions
- BM25/SPLADE compatible
- Top-k pruning operations

### 6. Graph Operations & Cypher (`src/graph/`)
- Property graph storage (nodes/edges)
- BFS, DFS, Dijkstra traversal
- Cypher query parser (AST-based)
- Query executor with pattern matching

### 7. Tiny Dancer Routing (`src/routing/`)
- FastGRNN neural network
- Agent registry with capabilities
- Multi-objective routing optimization
- Cost/latency/quality balancing

## Docker Infrastructure
- Dockerfile with pgrx 0.12.6 and PostgreSQL 16
- docker-compose.yml with test runner
- Initialization SQL with test tables
- Shell scripts for dev/test/benchmark

## Feature Flags
- `learning`, `attention`, `gnn`, `hyperbolic`
- `sparse`, `graph`, `routing`
- `ai-complete` and `graph-complete` bundles

🤖 Generated with [Claude Code](https://claude.com/claude-code)

Co-Authored-By: Claude <noreply@anthropic.com>

* fix(docker): Copy entire workspace for pgrx build

🤖 Generated with [Claude Code](https://claude.com/claude-code)

Co-Authored-By: Claude <noreply@anthropic.com>

* fix(docker): Build standalone crate without workspace

🤖 Generated with [Claude Code](https://claude.com/claude-code)

Co-Authored-By: Claude <noreply@anthropic.com>

* docs: Update README to enhance clarity and structure

* fix(postgres): Resolve compilation errors and Docker build issues

- Fix simsimd Option/Result type mismatch in scaled_dot.rs
- Fix f32/f64 type conversions in poincare.rs and lorentz.rs
- Fix AVX512 missing wrapper functions by using AVX2 fallback
- Fix Vec<Vec<f32>> to JsonB for pgrx pg_extern compatibility
- Fix DashMap get() to get_mut() for mutable access
- Fix router.rs dereference for best_score comparison
- Update Dockerfile to copy pre-written SQL file for pgrx
- Simplify init.sql to use correct function names
- Add postgres-cli npm package for CLI tooling

All changes tested successfully in Docker with:
- Extension loads with AVX2 SIMD support (8 floats/op)
- Distance functions verified working
- PostgreSQL 16 container runs successfully

🤖 Generated with [Claude Code](https://claude.com/claude-code)

Co-Authored-By: Claude <noreply@anthropic.com>

* feat: Add ruvLLM examples and enhanced postgres-cli

Added from claude/ruvector-lfm2-llm-01YS5Tc7i64PyYCLecT9L1dN branch:
- examples/ruvLLM: Complete LLM inference system with SIMD optimization
  - Pretraining, benchmarking, and optimization system
  - Real SIMD-optimized CPU inference engine
  - Comprehensive SOTA benchmark suite
  - Attention mechanisms, memory management, router

Enhanced postgres-cli with full ruvector-postgres integration:
- Sparse vector operations (BM25, top-k, prune, conversions)
- Hyperbolic geometry (Poincare, Lorentz, Mobius operations)
- Agent routing (Tiny Dancer system)
- Vector quantization (binary, scalar, product)
- Enhanced graph and learning commands

🤖 Generated with [Claude Code](https://claude.com/claude-code)

Co-Authored-By: Claude <noreply@anthropic.com>

* fix(postgres-cli): Use native ruvector type instead of pgvector

- Change createVectorTable to use ruvector type (native RuVector extension)
- Add dimensions column for metadata since ruvector is variable-length
- Update index creation to use simple btree (HNSW/IVFFlat TBD)
- Tested against Docker container with ruvector extension

🤖 Generated with [Claude Code](https://claude.com/claude-code)

Co-Authored-By: Claude <noreply@anthropic.com>

* feat(postgres): Add 53 SQL function definitions for all advanced modules

Enable all advanced PostgreSQL extension functions by adding their SQL
definitions to the extension file. This exposes all Rust #[pg_extern]
functions to PostgreSQL.

## New SQL Functions (53 total)

### Hyperbolic Geometry (8 functions)
- ruvector_poincare_distance, ruvector_lorentz_distance
- ruvector_mobius_add, ruvector_exp_map, ruvector_log_map
- ruvector_poincare_to_lorentz, ruvector_lorentz_to_poincare
- ruvector_minkowski_dot

### Sparse Vectors (14 functions)
- ruvector_sparse_create, ruvector_sparse_from_dense
- ruvector_sparse_dot, ruvector_sparse_cosine, ruvector_sparse_l2_distance
- ruvector_sparse_add, ruvector_sparse_scale, ruvector_sparse_to_dense
- ruvector_sparse_nnz, ruvector_sparse_dim
- ruvector_bm25_score, ruvector_tf_idf, ruvector_sparse_normalize
- ruvector_sparse_topk

### GNN - Graph Neural Networks (5 functions)
- ruvector_gnn_gcn_layer, ruvector_gnn_graphsage_layer
- ruvector_gnn_gat_layer, ruvector_gnn_message_pass
- ruvector_gnn_aggregate

### Routing/Agents - "Tiny Dancer" (11 functions)
- ruvector_route_query, ruvector_route_with_context
- ruvector_calculate_agent_affinity, ruvector_select_best_agent
- ruvector_multi_agent_route, ruvector_create_agent_embedding
- ruvector_get_routing_stats, ruvector_register_agent
- ruvector_update_agent_performance, ruvector_adaptive_route
- ruvector_fastgrnn_forward

### Learning/ReasoningBank (7 functions)
- ruvector_record_trajectory, ruvector_get_verdict
- ruvector_distill_memory, ruvector_adaptive_search
- ruvector_learning_feedback, ruvector_get_learning_patterns
- ruvector_optimize_search_params

### Graph/Cypher (8 functions)
- ruvector_graph_create_node, ruvector_graph_create_edge
- ruvector_graph_get_neighbors, ruvector_graph_shortest_path
- ruvector_graph_pagerank, ruvector_cypher_query
- ruvector_graph_traverse, ruvector_graph_similarity_search

## CLI Updates
- Enabled hyperbolic geometry commands in postgres-cli
- Added vector distance and normalize commands
- Enhanced client with connection pooling and retry logic

🤖 Generated with [Claude Code](https://claude.com/claude-code)

Co-Authored-By: Claude <noreply@anthropic.com>

---------

Co-authored-by: Claude <noreply@anthropic.com>

2025-12-02 22:49:29 -05:00

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RuvLLM Documentation

Overview

This directory contains documentation for the RuvLLM self-learning LLM architecture.

Quick Links

Main README - Getting started, API reference, benchmarks
SPARC Documentation - Design methodology documentation

SPARC Methodology

The project was designed using the SPARC methodology:

Phase	Document	Description
1	Specification	Requirements and acceptance criteria
2	Pseudocode	Algorithm design and data flows
3	Architecture	System design and component interactions
4	Refinement	TDD implementation and iterative improvement
5	Completion	Integration, testing, and deployment

Architecture Overview

┌─────────────────────────────────────────────────────────────────┐
│                         RuvLLM System                           │
├─────────────────────────────────────────────────────────────────┤
│                                                                 │
│  ┌─────────────┐  ┌─────────────┐  ┌─────────────┐             │
│  │  Embedding  │  │   Memory    │  │   Router    │             │
│  │  Service    │  │   (HNSW)    │  │  (FastGRNN) │             │
│  └──────┬──────┘  └──────┬──────┘  └──────┬──────┘             │
│         │                │                │                     │
│         └────────────────┼────────────────┘                     │
│                          │                                      │
│                   ┌──────┴──────┐                               │
│                   │ Orchestrator │                              │
│                   └──────┬──────┘                               │
│                          │                                      │
│  ┌─────────────┐  ┌──────┴──────┐  ┌─────────────┐             │
│  │  Attention  │  │  Inference  │  │  Learning   │             │
│  │  Engine     │  │  Pool       │  │  Service    │             │
│  └─────────────┘  └─────────────┘  └─────────────┘             │
│                                                                 │
└─────────────────────────────────────────────────────────────────┘

Module Documentation

Core Modules

Module	File	Description
`orchestrator`	`src/orchestrator.rs`	Main coordinator, request processing pipeline
`memory`	`src/memory.rs`	HNSW-based semantic memory with graph expansion
`router`	`src/router.rs`	FastGRNN routing with EWC learning
`attention`	`src/attention.rs`	Multi-head graph attention with edge features
`embedding`	`src/embedding.rs`	Tokenization, embedding, and caching
`inference`	`src/inference.rs`	LFM2 model pool management
`learning`	`src/learning.rs`	Self-learning feedback loops
`compression`	`src/compression.rs`	Memory compression and clustering

Supporting Modules

Module	File	Description
`config`	`src/config.rs`	Configuration system with builder pattern
`error`	`src/error.rs`	Error types and result aliases
`types`	`src/types.rs`	Core domain types and structs

API Examples

Basic Query

use ruvllm::{Config, RuvLLM};

let config = Config::builder().build()?;
let llm = RuvLLM::new(config).await?;
let response = llm.query("What is Rust?").await?;

Session Management

let session = llm.new_session();
let r1 = llm.query_session(&session, "Tell me about vectors").await?;
let r2 = llm.query_session(&session, "How are they used in ML?").await?;

Feedback Loop

use ruvllm::Feedback;

llm.feedback(Feedback {
    request_id: response.request_id,
    rating: Some(5),
    correction: None,
    task_success: Some(true),
}).await?;

Performance Tuning

Memory Configuration

Config::builder()
    .hnsw_params(
        32,   // M: connections per node (higher = better recall, more memory)
        200,  // ef_construction: build quality (higher = slower build, better index)
        64,   // ef_search: search quality (higher = slower search, better recall)
    )

Router Configuration

Config::builder()
    .router_hidden_dim(128)  // Hidden state size (higher = more capacity)

Learning Configuration

Config::builder()
    .learning_enabled(true)  // Enable self-learning

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