Introducing Ava Protocol Studio: Event-Driven Automation for Web3

Ava Protocol Studio transforms complex blockchain operations into visual, autonomous workflows. This no-code automation workspace enables users to build event-driven processes across Ethereum and layer-2 networks Base and Soneium through an intuitive interface, simplifying and streamlining crypto automation.

For developers, Ava Protocol eliminates the need to build custom backend systems or manage infrastructure for web2 and web3 tasks, helping them build faster and smarter. DeFi participants gain intent-based tools for automating trading strategies and portfolio management. AI agents can automate complex workflows, integrate off-chain data sources, and execute predefined tasks, supporting more responsive and adaptive onchain operations. DAOs and their members can also leverage the workspace for advanced governance and treasury management.

By offering a unified workspace with intelligent automation tools, Ava Protocol Studio provides a practical and scalable solution for building and executing event-driven workflows onchain.

Click here to begin exploring Ava Protocol Studio.

Getting Started

Access Ava Protocol Studio using your preferred crypto wallet. New users can explore the template library or start with a blank canvas to build custom workflows combining simple triggers and actions. A simulation feature allows testing before deployment.

Begin by connecting a wallet and creating a basic automation:

Step 1: Enter Ava Protocol Studio and connect a wallet.
Step 2: Select a template or start a new workflow from scratch.
Step 3: Define triggers, conditions, and actions.
Step 4: Test via simulation to verify execution.
Step 5: Deploy and monitor through the dashboard.

Key Features in Action

1. No-Code Workflow Builder

At the core of Ava Protocol Studio is the drag-and-drop workflow builder, which turns blockchain operations into intuitive, event-driven processes. Users can automate tasks like token swaps, recurring payments, and liquidity management without writing code. The visual canvas organizes automation components into logical sequences, making it easy to build and modify workflows dynamically.

Advanced integration capabilities extend this functionality beyond basic blockchain operations, enabling sophisticated onchain and offchain computations:

Incorporate HTTP requests to external APIs, enabling workflows to interact with real-world data sources like financial indices or IoT events. Securely define and manage secrets like API keys, ensuring that workflows maintain strict security protocols when interacting with external services.
Integrate AI models and services to analyze data, generate predictions, and automate decision-making, enabling more intelligent and adaptive workflows.
Leverage Oracle and GraphQL queries for precise blockchain data fetching and chain RPC calls for direct network interaction.

The workflow builder organizes components into three primary categories, each tailored to specific tasks:

Logic Components:

Triggers: Define the starting points for workflows, such as time-based events, price thresholds, or specific onchain activities.
Branch: Introduce conditional logic to enable workflows to take dynamic paths based on defined criteria.
Filter: Refine and filter input data to ensure workflows operate with precision.
Loop: Enable repeated operations, such as recurring transactions or iterative checks.

Read Components:

Oracle: Connect workflows to external data sources, enabling interactions with price feeds, weather data, or other off-chain inputs.
Subgraph: Query blockchain data with precision to retrieve the most relevant and actionable insights for workflows.

Write Components:

Actions: Execute operations that interact directly with the blockchain, such as token swaps, liquidity adjustments, or fund transfers.

Example Workflow: Automate Stop-Loss on Uniswap V3 & Get Telegram Alerts

A user sets up a workflow to automatically execute a stop-loss order on Uniswap V3 when ETH drops below 2,500 USDC.

Trigger: A block interval trigger initiates the workflow every three minutes.
Oracle: It retrieves real-time ETH/USDC price data from a Chainlink oracle.
Branch: If the ETH price falls to 2,500 USDC or lower, the workflow proceeds.
Action: Uniswap V3 is automatically called to execute a swap of ETH for USDC with a 0.5% max slippage tolerance for trade efficiency.
Notification: User receives a Telegram message with complete swap details: sell amount, received amount, allowed slippage, execution time, and a direct transaction link to Etherscan for verification.

2. Smart Wallet Management

Ava Protocol’s smart wallet architecture, based on the ERC-4337 and ERC-6900 standards, provides a secure and flexible framework for automation execution. Each wallet functions as a secure execution environment for precise control over automated tasks, with granular permissions over token allowances, time-based limitations, and network interactions.

Delegated Permissions: Users authorize specific actions while keeping private keys and primary assets secure.
Automated Execution: Transactions can be triggered autonomously without exposing primary accounts to unnecessary risks.
Multiple Configurable Wallets: Create, modify, and deactivate wallets as needed for specific use cases (e.g., yield farming, DAO treasury).

The smart wallet interface provides granular control over automated operations, enabling secure delegation and proxy access. Each wallet interface provides:

Current balance and transaction history
Granular permission settings for delegated actions
Task execution logs, including completed and pending operations
Balance changes over time with status indicators

This structure ensures users maintain visibility and control over all automated transactions while keeping primary assets secure.

3. Task Management & Execution Monitoring

Ava Protocol’s smart wallet interface includes a comprehensive task management system, providing full visibility into automation execution and performance.

Users can:

Track executions and monitor asset distribution across networks.
Analyze performance metrics, including task completion rates and total gas saved.
Filter tasks by:
- Status (Active, Completed, Canceled)
- Time period (Last Month, Last 3 Months, This Year)
- Custom date ranges

Each task entry includes:

Unique identifier and creator address
Creation date and time
Current status and task type (One-time, Recurring)
Available actions (Cancel, Edit, View Details)

For completed tasks, the interface provides detailed execution logs and transaction status updates. Failed tasks include error messages and retry options, ensuring seamless automation management.

4. Template Library & Pre-Built Workflows

The template library provides a collection of ready-made automation solutions for major blockchain verticals.

The library organizes templates into clear categories (DeFi, AI, RWA, Gaming, Utility, NFT). Each template includes:

Pre-Configured Logic: Workflows optimized for common use cases.
Customization Options: Modify parameters to fit specific needs.
Usage Statistics: Insights into how templates are applied.

Users can:

Filter templates by category
Search for specific functionality
Clone, modify, and combine templates to create tailored solutions for specific needs.

Example Use Cases:

Optimize Yield Across DeFi Products
Leverage Ava Protocol to build automated workflows that reallocate assets to higher-yield opportunities. By setting up systems to monitor real-time yield rates across protocols, users can configure their assets to move or swap when better rates are detected, eliminating manual tracking and enabling consistent yield optimization.
Place Stop-Loss Orders on DeFi Protocols
Protect your assets by automating stop-loss orders that trigger trades when prices fall below predetermined thresholds. Constant market monitoring is no longer required, offering secure execution and peace of mind in volatile markets.
Batch Send to Multiple Recipient Addresses
Consolidate multiple token transfers into a single transaction, enabling efficient distribution to a list of recipient addresses. This approach significantly reduces gas fees and execution time, making it particularly beneficial for payroll, reward distributions, and airdrops.
Schedule Recurring Monthly Payments
Automate recurring payments such as subscriptions or loan repayments with predefined schedules. Preconfigured workflows deliver timely execution without manual intervention, simplifying financial management and improving reliability.

Dashboard & Performance Insights

The Ava Protocol Studio dashboard provides a comprehensive view of automation activity, offering real-time insights into workflow performance and efficiency. Users can monitor:

Active automations, inactive workflows, and drafts
Total automated executions and gas saved
Week-over-week performance trends for deeper analysis

The dashboard ensures that users have a clear, data-driven view of their automation strategies. With real-time updates on status, completion rates, and resource usage, users can fine-tune their workflows for optimal efficiency.

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Ava Protocol Studio redefines onchain automation, providing a powerful yet accessible workspace for developers, traders, DAOs, and AI-driven agents. By eliminating manual execution and simplifying complex workflows, it enables users to operate more efficiently while maintaining full control over their assets.

Whether optimizing DeFi strategies, managing governance operations, or integrating AI for intelligent automation, Studio delivers a scalable, event-driven solution for web3 automation.