Distributed Gummy Orchestrator
Coordinate gummy-agent tasks across your Tailscale network using the d command for intelligent load balancing and multi-host AI-powered development.
When to Use
This skill activates when you want to:
✅ Distribute gummy tasks across multiple hosts
- •"Run this gummy task on the least loaded host"
- •"Execute specialist on optimal node"
- •"Distribute testing across all machines"
✅ Load-balanced AI development
- •"Which host should handle this database work?"
- •"Run API specialist on best available node"
- •"Balance gummy tasks across cluster"
✅ Multi-host coordination
- •"Sync codebase andw run gummy on node-2"
- •"Execute parallel specialists across network"
- •"Run tests on all platforms simultaneously"
✅ Network-wide specialist monitoring
- •"Show all running specialists across hosts"
- •"What gummy tasks are active on my network?"
- •"Status of distributed specialists"
How It Works
Architecture
[Main Claude] ──> [Orchestrator] ──> dw command ──> [Network Nodes]
│ │
├──> Load Analysis ├──> gummy-agent
├──> Host Selection ├──> Specialists
├──> Sync Management └──> Tasks
└──> Task Distribution
Core Workflows
1. Load-Balanced Execution
# User request: "Run database optimization on best host" # Agent: 1. Execute: dw load 2. Parse metrics (CPU, memory, load average) 3. Calculate composite scores 4. Select optimal host 5. Sync codebase: dw sync <host> 6. Execute: dw run <host> "cd <project> && gummy task 'optimize database queries'"
2. Parallel Distribution
# User request: "Test on all platforms" # Agent: 1. Get hosts: dw status 2. Filter by availability 3. Sync all: for host in hosts; do dw sync $host; done 4. Launch parallel: dw run host1 "test" & dw run host2 "test" & ... 5. Aggregate results
3. Network-Wide Monitoring
# User request: "Show all specialists" # Agent: 1. Get active hosts: dw status 2. For each host: dw run <host> "gummy-watch status" 3. Parse specialist states 4. Aggregate and display
Available Scripts
orchestrate_gummy.py
Main orchestration logic - coordinates distributed gummy execution.
Functions:
- •
select_optimal_host()- Choose best node based on load - •
sync_and_execute_gummy()- Sync code + run gummy task - •
parallel_gummy_tasks()- Execute multiple tasks simultaneously - •
monitor_all_specialists()- Aggregate specialist status across network
Usage:
from scripts.orchestrate_gummy import select_optimal_host, sync_and_execute_gummy
# Find best host
optimal = select_optimal_host(task_type="database")
# Returns: {'host': 'node-1', 'score': 0.23, 'cpu': 15%, 'mem': 45%}
# Execute on optimal host
result = sync_and_execute_gummy(
host=optimal['host'],
task="optimize user queries",
project_dir="/path/to/project"
)
d_wrapper.py
Wrapper for d command operations.
Functions:
- •
get_load_metrics()- Executedwloadand parse results - •
get_host_status()- Executedwstatusand parse availability - •
sync_directory()- Executedwsyncto target host - •
run_remote_command()- Executedwrunon specific host
Workflows
Workflow 1: Load-Balanced Task Distribution
User Query: "Run database optimization on optimal host"
Agent Actions:
- •Call
get_load_metrics()to fetch cluster load - •Call
select_optimal_host(task_type="database")to choose best node - •Call
sync_directory(host, project_path)to sync codebase - •Call
dwrun <host> "cd project && gummy task 'optimize database queries'" - •Monitor execution via
gummy-watch - •Return results
Workflow 2: Parallel Multi-Host Execution
User Query: "Run tests across all available nodes"
Agent Actions:
- •Call
get_host_status()to get available hosts - •Filter hosts by availability and capability
- •For each host:
- •Sync codebase:
sync_directory(host, project) - •Launch test:
dwrun <host> "cd project && gummy task 'run test suite'" &
- •Sync codebase:
- •Collect all background job PIDs
- •Wait for completion
- •Aggregate results from all hosts
Workflow 3: Network-Wide Specialist Monitoring
User Query: "Show all running specialists across my network"
Agent Actions:
- •Get active hosts from
dwstatus - •For each host:
- •Check for gummy-agent:
dwrun <host> "command -v gummy" - •If present, get specialists:
dwrun <host> "ls -la ~/.gummy/specialists"
- •Check for gummy-agent:
- •Parse specialist metadata from each host
- •Create aggregated dashboard showing:
- •Host name
- •Active specialists
- •Session states (active/dormant)
- •Resource usage
- •Display unified network view
Workflow 4: Intelligent Work Distribution
User Query: "I have database work and API work - distribute optimally"
Agent Actions:
- •Analyze tasks:
- •Task 1: database optimization (CPU-intensive)
- •Task 2: API development (I/O-intensive)
- •Get load metrics for all hosts
- •Select hosts using different criteria:
- •Database work → host with lowest CPU load
- •API work → host with lowest I/O wait
- •Sync to both hosts
- •Launch tasks in parallel:
bash
dw run <cpu-host> "gummy task 'optimize database queries'" & dw run <io-host> "gummy task 'build REST API endpoints'" &
- •Monitor both executions
- •Report when complete
Error Handling
Connection Issues
try:
result = d_run(host, command)
except SSHConnectionError:
# Retry with different host
fallback = select_optimal_host(exclude=[failed_host])
result = d_run(fallback, command)
Sync Failures
if not sync_successful:
# Fall back to local execution
return execute_local_gummy(task)
Load Metric Unavailable
if not load_data:
# Use round-robin distribution
return round_robin_host_selection()
Performance & Caching
Load Metrics Caching:
- •Cache TTL: 30 seconds (load changes fast)
- •Cache location:
/tmp/d-load-cache.json - •Invalidate on manual request
Host Availability:
- •Cache TTL: 60 seconds
- •Cache location:
/tmp/d-status-cache.json
Specialist State:
- •Cache TTL: 5 seconds (near real-time)
- •Only cached during active monitoring
Keywords for Auto-Detection
This skill activates when user mentions:
Distributed Operations:
- •distributed, cluster, network, multi-host, across hosts, all nodes, all machines
- •remote, ssh, tailscale
Gummy Integration:
- •gummy, specialist, agent, haiku, task
- •execute gummy, run gummy, gummy task
Load Balancing:
- •least loaded, best host, optimal node, load balance, best machine
- •which host should, where should I run
Coordination:
- •sync andw run, parallel, coordinate, orchestrate, distribute
- •run on, execute on, send to
Monitoring:
- •all specialists, network status, cluster status, show specialists
- •what's running, active tasks
Examples That Activate:
- •"Run database optimization on least loaded host"
- •"Execute API specialist on optimal node"
- •"Distribute tests across all machines"
- •"Show all specialists across network"
- •"Sync codebase andw run gummy on node-2"
- •"Which host should handle this database work?"
- •"Run parallel gummy tasks across cluster"
Does NOT Activate (local operations):
- •"Run gummy task locally"
- •"Execute specialist here"
- •"/gummy-task add logging"
Usage Examples
Example 1: Simple Load-Balanced Execution
👤: "Run database optimization on the best available host" 🤖: I'll find the optimal host and execute the task there. [Executes: dw load] [Analysis: node-1 has lowest composite score (0.18)] [Executes: dw sync node-1] [Executes: dw run node-1 "cd ~/project && gummy task 'optimize database queries'"] ✅ Task launched on node-1 (CPU: 12%, Mem: 35%, Load: 0.18) Monitor with: ssh node-1 'gummy-watch'
Example 2: Parallel Multi-Platform Testing
👤: "Run tests across all available nodes" 🤖: I'll distribute test execution across your network. [Executes: dw status] [Found: 4 available hosts] [Syncing codebase to all hosts...] ✓ node-1 synced ✓ node-2 synced ✓ node-3 synced ✓ node-4 synced [Launching parallel test execution...] node-1: Running unit tests node-2: Running integration tests node-3: Running e2e tests node-4: Running performance tests [All tests complete in 8 minutes (vs 32 minutes sequential)] Results: ✅ unit: 1,247 passed ✅ integration: 89 passed ✅ e2e: 34 passed ⚠️ performance: 3 slow queries detected
Example 3: Intelligent Task Distribution
👤: "I need to optimize database queries and build new API endpoints" 🤖: I'll distribute these optimally based on task characteristics. [Analyzing tasks...] - Database optimization: CPU-intensive - API development: I/O-bound [Fetching cluster load...] node-1: CPU 15%, I/O 45% → Best for database work node-2: CPU 65%, I/O 12% → Best for API work [Distributing tasks...] ✓ Database optimization → node-1 ✓ API development → node-2 [Syncing and launching...] node-1: database-expert specialist active node-2: api-developer specialist active Both tasks running in parallel. Expected completion: 15 minutes. Monitor: ssh node-1 'gummy-watch' ssh node-2 'gummy-watch'
Example 4: Network-Wide Specialist Status
👤: "Show all specialists running across my network" 🤖: Scanning network for active specialists... [Checking all hosts...] ╔═══════════════════════════════════════════════════════╗ ║ DISTRIBUTED SPECIALIST DASHBOARD ║ ╚═══════════════════════════════════════════════════════╝ ┌─ node-1 ──────────────────────────────────────────────┐ │ ⚡ database-expert Sessions: 8 Cost: $0.02 │ │ 💤 testing-specialist Sessions: 3 Cost: $0.01 │ └───────────────────────────────────────────────────────┘ ┌─ node-2 ──────────────────────────────────────────────┐ │ ⚡ api-developer Sessions: 5 Cost: $0.01 │ │ ⚡ frontend-specialist Sessions: 12 Cost: $0.03 │ └───────────────────────────────────────────────────────┘ ┌─ node-3 ──────────────────────────────────────────────┐ │ 💤 security-specialist Sessions: 2 Cost: $0.01 │ └───────────────────────────────────────────────────────┘ Total: 5 active specialists across 3 hosts Total cost today: $0.08
Example 5: Sync-Before-Execute Workflow
👤: "Sync my codebase to node-3 andw run frontend specialist there" 🤖: I'll sync and execute on node-3. [Current directory: ~/projects/myapp] [Syncing to node-3...] Sending: src/ components/ lib/ package.json Excluding: node_modules .git dist ✓ Synced 1,247 files (45 MB) in 3 seconds [Launching frontend specialist on node-3...] ✓ specialist created (session: abc123) ⚡ Working on task... Task active on node-3. Monitor: ssh node-3 'gummy-watch'
Configuration
Required Tools
- •✅
dcommand (distributed CLI) - •✅
gummy-agentinstalled on remote hosts - •✅ Tailscale network configured
- •✅ SSH access via ~/.ssh/config
- •✅ rsync on all hosts
Optional Configuration
Create ~/.config/distributed-gummy/config.yaml:
# Load balancing weights
load_weights:
cpu: 0.4
memory: 0.3
load_average: 0.3
# Sync exclusions
sync_exclude:
- node_modules
- .git
- dist
- build
- .DS_Store
- "*.log"
# Host preferences for task types
host_preferences:
database:
- node-1 # High CPU
frontend:
- node-2 # High memory
testing:
- node-3 # Dedicated test node
Troubleshooting
"Host not responding"
# Check Tailscale connectivity tailscale status # Check SSH access ssh <host> echo "OK" # Verify dw command works dw status
"Sync failed"
# Manual sync test dw sync <host> # Check rsync which rsync # Check disk space on remote dw run <host> "df -h"
"Gummy not found on remote host"
# Check gummy installation dw run <host> "which gummy" # Install if needed dw run <host> "brew install WillyV3/tap/gummy-agent"
Limitations
- •Requires gummy-agent installed on all target hosts
- •Requires Tailscale network connectivity
- •Load metrics only available from
dwloadcommand - •Sync uses current directory as base (change with cd first)
Version
1.0.0 - Initial release