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harshahosur81/multi-agent-optimize

Name: multi-agent-optimize
Author: harshahosur81

skills/ml-ai/multi-agent-optimize/SKILL.md

npx skillsauth add harshahosur81/ag-opencode-skills multi-agent-optimize

Clean

TrivyContainer and dependency vulnerability scanner

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SemgrepStatic code analysis for vulnerabilities

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mcp-scan (Snyk)Model Context Protocol security validation

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Snyk (dep)Open source security scanning

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Socket.devSupply chain security analysis

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VirusTotalMulti-engine malware detection

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CrowdStrikeAdvanced threat intelligence

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OWASP Dep-Check

Multi-Agent Optimization Toolkit

Role: AI-Powered Multi-Agent Performance Engineering Specialist

Context

The Multi-Agent Optimization Tool is an advanced AI-driven framework designed to holistically improve system performance through intelligent, coordinated agent-based optimization. Leveraging cutting-edge AI orchestration techniques, this tool provides a comprehensive approach to performance engineering across multiple domains.

Core Capabilities

Intelligent multi-agent coordination
Performance profiling and bottleneck identification
Adaptive optimization strategies
Cross-domain performance optimization
Cost and efficiency tracking

Arguments Handling

The tool processes optimization arguments with flexible input parameters:

$TARGET: Primary system/application to optimize
$PERFORMANCE_GOALS: Specific performance metrics and objectives
$OPTIMIZATION_SCOPE: Depth of optimization (quick-win, comprehensive)
$BUDGET_CONSTRAINTS: Cost and resource limitations
$QUALITY_METRICS: Performance quality thresholds

1. Multi-Agent Performance Profiling

Profiling Strategy

Distributed performance monitoring across system layers
Real-time metrics collection and analysis
Continuous performance signature tracking

Profiling Agents

Database Performance Agent
- Query execution time analysis
- Index utilization tracking
- Resource consumption monitoring
Application Performance Agent
- CPU and memory profiling
- Algorithmic complexity assessment
- Concurrency and async operation analysis
Frontend Performance Agent
- Rendering performance metrics
- Network request optimization
- Core Web Vitals monitoring

Profiling Code Example

def multi_agent_profiler(target_system):
    agents = [
        DatabasePerformanceAgent(target_system),
        ApplicationPerformanceAgent(target_system),
        FrontendPerformanceAgent(target_system)
    ]

    performance_profile = {}
    for agent in agents:
        performance_profile[agent.__class__.__name__] = agent.profile()

    return aggregate_performance_metrics(performance_profile)

2. Context Window Optimization

Optimization Techniques

Intelligent context compression
Semantic relevance filtering
Dynamic context window resizing
Token budget management

Context Compression Algorithm

def compress_context(context, max_tokens=4000):
    # Semantic compression using embedding-based truncation
    compressed_context = semantic_truncate(
        context,
        max_tokens=max_tokens,
        importance_threshold=0.7
    )
    return compressed_context

3. Agent Coordination Efficiency

Coordination Principles

Parallel execution design
Minimal inter-agent communication overhead
Dynamic workload distribution
Fault-tolerant agent interactions

Orchestration Framework

class MultiAgentOrchestrator:
    def __init__(self, agents):
        self.agents = agents
        self.execution_queue = PriorityQueue()
        self.performance_tracker = PerformanceTracker()

    def optimize(self, target_system):
        # Parallel agent execution with coordinated optimization
        with concurrent.futures.ThreadPoolExecutor() as executor:
            futures = {
                executor.submit(agent.optimize, target_system): agent
                for agent in self.agents
            }

            for future in concurrent.futures.as_completed(futures):
                agent = futures[future]
                result = future.result()
                self.performance_tracker.log(agent, result)

4. Parallel Execution Optimization

Key Strategies

Asynchronous agent processing
Workload partitioning
Dynamic resource allocation
Minimal blocking operations

5. Cost Optimization Strategies

LLM Cost Management

Token usage tracking
Adaptive model selection
Caching and result reuse
Efficient prompt engineering

Cost Tracking Example

class CostOptimizer:
    def __init__(self):
        self.token_budget = 100000  # Monthly budget
        self.token_usage = 0
        self.model_costs = {
            'gpt-5': 0.03,
            'claude-4-sonnet': 0.015,
            'claude-4-haiku': 0.0025
        }

    def select_optimal_model(self, complexity):
        # Dynamic model selection based on task complexity and budget
        pass

6. Latency Reduction Techniques

Performance Acceleration

Predictive caching
Pre-warming agent contexts
Intelligent result memoization
Reduced round-trip communication

7. Quality vs Speed Tradeoffs

Optimization Spectrum

Performance thresholds
Acceptable degradation margins
Quality-aware optimization
Intelligent compromise selection

8. Monitoring and Continuous Improvement

Observability Framework

Real-time performance dashboards
Automated optimization feedback loops
Machine learning-driven improvement
Adaptive optimization strategies

Reference Workflows

Workflow 1: E-Commerce Platform Optimization

Initial performance profiling
Agent-based optimization
Cost and performance tracking
Continuous improvement cycle

Workflow 2: Enterprise API Performance Enhancement

Comprehensive system analysis
Multi-layered agent optimization
Iterative performance refinement
Cost-efficient scaling strategy

Key Considerations

Always measure before and after optimization
Maintain system stability during optimization
Balance performance gains with resource consumption
Implement gradual, reversible changes

Target Optimization: $ARGUMENTS

harshahosur81/multi-agent-optimize

skills/ml-ai/multi-agent-optimize/SKILL.md

Use when working with agent orchestration multi agent optimize

3 stars

data-ai

Updated May 19, 2026

$ install --global

skillsauth

npx skillsauth add harshahosur81/ag-opencode-skills multi-agent-optimize

Install this skill globally with one command. Works with Claude Code, Cursor, and Windsurf.

Security Scan Results

3 of 9 scanners reported clean

Some scanners were skipped, did not run, or reported a non-clean status. Review each row below.

Scanners Passed

Scanners in report

Clean

TrivyContainer and dependency vulnerability scanner

95%

Clean

SemgrepStatic code analysis for vulnerabilities

95%

Clean

mcp-scan (Snyk)Model Context Protocol security validation

95%

Skipped

Snyk (dep)Open source security scanning

50%

Skipped

Socket.devSupply chain security analysis

50%

Skipped

VirusTotalMulti-engine malware detection

50%

Skipped

CrowdStrikeAdvanced threat intelligence

50%

Skipped

OSV-ScannerOpen Source Vulnerability database check

50%

Skipped

OWASP Dep-Check

50%

Last scanned: May 19, 2026, 3:31 AM261.8s1 file scanned

SKILL.md

name:: multi-agent-optimize
description:: Use when working with agent orchestration multi agent optimize
category:: ml-ai

Multi-Agent Optimization Toolkit

Role: AI-Powered Multi-Agent Performance Engineering Specialist

Context

Core Capabilities

Intelligent multi-agent coordination
Performance profiling and bottleneck identification
Adaptive optimization strategies
Cross-domain performance optimization
Cost and efficiency tracking

Arguments Handling

The tool processes optimization arguments with flexible input parameters:

$TARGET: Primary system/application to optimize
$PERFORMANCE_GOALS: Specific performance metrics and objectives
$OPTIMIZATION_SCOPE: Depth of optimization (quick-win, comprehensive)
$BUDGET_CONSTRAINTS: Cost and resource limitations
$QUALITY_METRICS: Performance quality thresholds

1. Multi-Agent Performance Profiling

Profiling Strategy

Distributed performance monitoring across system layers
Real-time metrics collection and analysis
Continuous performance signature tracking

Profiling Agents

Database Performance Agent
- Query execution time analysis
- Index utilization tracking
- Resource consumption monitoring
Application Performance Agent
- CPU and memory profiling
- Algorithmic complexity assessment
- Concurrency and async operation analysis
Frontend Performance Agent
- Rendering performance metrics
- Network request optimization
- Core Web Vitals monitoring

Profiling Code Example

def multi_agent_profiler(target_system):
    agents = [
        DatabasePerformanceAgent(target_system),
        ApplicationPerformanceAgent(target_system),
        FrontendPerformanceAgent(target_system)
    ]

    performance_profile = {}
    for agent in agents:
        performance_profile[agent.__class__.__name__] = agent.profile()

    return aggregate_performance_metrics(performance_profile)

2. Context Window Optimization

Optimization Techniques

Intelligent context compression
Semantic relevance filtering
Dynamic context window resizing
Token budget management

Context Compression Algorithm

def compress_context(context, max_tokens=4000):
    # Semantic compression using embedding-based truncation
    compressed_context = semantic_truncate(
        context,
        max_tokens=max_tokens,
        importance_threshold=0.7
    )
    return compressed_context

3. Agent Coordination Efficiency

Coordination Principles

Parallel execution design
Minimal inter-agent communication overhead
Dynamic workload distribution
Fault-tolerant agent interactions

Orchestration Framework

class MultiAgentOrchestrator:
    def __init__(self, agents):
        self.agents = agents
        self.execution_queue = PriorityQueue()
        self.performance_tracker = PerformanceTracker()

    def optimize(self, target_system):
        # Parallel agent execution with coordinated optimization
        with concurrent.futures.ThreadPoolExecutor() as executor:
            futures = {
                executor.submit(agent.optimize, target_system): agent
                for agent in self.agents
            }

            for future in concurrent.futures.as_completed(futures):
                agent = futures[future]
                result = future.result()
                self.performance_tracker.log(agent, result)

4. Parallel Execution Optimization

Key Strategies

Asynchronous agent processing
Workload partitioning
Dynamic resource allocation
Minimal blocking operations

5. Cost Optimization Strategies

LLM Cost Management

Token usage tracking
Adaptive model selection
Caching and result reuse
Efficient prompt engineering

Cost Tracking Example

class CostOptimizer:
    def __init__(self):
        self.token_budget = 100000  # Monthly budget
        self.token_usage = 0
        self.model_costs = {
            'gpt-5': 0.03,
            'claude-4-sonnet': 0.015,
            'claude-4-haiku': 0.0025
        }

    def select_optimal_model(self, complexity):
        # Dynamic model selection based on task complexity and budget
        pass

6. Latency Reduction Techniques

Performance Acceleration

Predictive caching
Pre-warming agent contexts
Intelligent result memoization
Reduced round-trip communication

7. Quality vs Speed Tradeoffs

Optimization Spectrum

Performance thresholds
Acceptable degradation margins
Quality-aware optimization
Intelligent compromise selection

8. Monitoring and Continuous Improvement

Observability Framework

Real-time performance dashboards
Automated optimization feedback loops
Machine learning-driven improvement
Adaptive optimization strategies

Reference Workflows

Workflow 1: E-Commerce Platform Optimization

Initial performance profiling
Agent-based optimization
Cost and performance tracking
Continuous improvement cycle

Workflow 2: Enterprise API Performance Enhancement

Comprehensive system analysis
Multi-layered agent optimization
Iterative performance refinement
Cost-efficient scaling strategy

Key Considerations

Always measure before and after optimization
Maintain system stability during optimization
Balance performance gains with resource consumption
Implement gradual, reversible changes

Target Optimization: $ARGUMENTS

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# Clone the repo
git clone https://github.com/harshahosur81/ag-opencode-skills.git

# Copy into Claude Code skills folder (global)
cp -r ag-opencode-skills/skills/ml-ai/multi-agent-optimize ~/.claude/skills/

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Repository

harshahosur81/ag-opencode-skills

3 stars

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