Initial DEX Offering (IDO) - A Detailed Guide for Beginners

Crypto Basics

Initial DEX Offering (IDO) - A Detailed Guide for Beginners

Discover the ins and outs of Initial DEX Offering (IDO) with our comprehensive guide. Learn how to participate and succeed in IDO launches.

S. Vishwa

9 Minutes

MIN

Index

Overview of Solana Blockchain

In the maturing landscape of the cryptocurrency industry, new fundraising approaches have emerged, including the Initial DEX Offering (IDO).

The IDO is a creative and decentralized crowdfunding model that addresses the shortcomings of its predecessor, the Initial Coin Offering (ICO).

ICOs gained popularity in 2017 but were plagued with issues such as lack of control, investor protections, and numerous scams. The negative reputation of ICOs cast a shadow over the crypto industry, deterring potential investors.

On the other hand, the IDO is a fundraising method that leverages decentralized exchanges (DEXs) to pool investment capital from retail investors. It offers a more egalitarian crowdfunding model and aims to provide immediate token liquidity.

While IDOs have limitations, such as scalability, compared to ICOs and IEOs, they have gained popularity in the crypto space due to their decentralized and fair nature.

What is an Initial DEX Offering?

An Initial DEX Offering (IDO) is a decentralized and permissionless crowdfunding method that leverages decentralized exchanges (DEXs) to raise funds for crypto projects.

Unlike traditional fundraising models such as Initial Coin Offerings (ICOs), IDOs provide immediate token liquidity and ensure a fair and transparent distribution of tokens. By utilizing DEXs, IDOs eliminate the need for intermediaries and offer greater control and transparency to investors.

How Do IDOs Work?

It is crucial to understand how IDOs work to grasp the concept of DEXs. DEXs are decentralized liquidity exchanges that operate on blockchain networks.

They allow users to trade digital assets directly from their wallets without intermediaries. IDOs leverage the decentralized nature of DEXs to facilitate fundraising for crypto projects.

Step-by-Step Process to Launch an IDO

Launching a successful IDO requires careful planning and execution. Here is a step-by-step process to guide project teams through the IDO launch:

Step 1: Devise a Business Strategy

Before launching an IDO, the project team should develop a comprehensive business strategy. This strategy should outline the project's goals, target audience, fund allocation, marketing plan, and post-IDO plans. Having a well-defined strategy, the team can effectively communicate their vision to potential investors.

Step 2: Create Marketing Collateral

To attract investors, the project team must create compelling marketing collateral. This includes designing a visually appealing website showcasing the project's unique selling points and providing information about the project's team.

Also, a well-crafted white paper should outline the project's technical details, tokenomics, and roadmap.

Step 3: Partner with a DEX Launchpad

The project team must partner with a DEX launchpad to launch an IDO. These launchpads serve as a platform for projects to gain exposure and access a broader investor base.

The team must ensure that their project meets the launchpad's requirements, including compatibility with the consensus mechanism and whitelisting.

Step 4: Create the Cryptocurrency

Using tools like CoinTool, the project team can create their cryptocurrency or token. This process involves defining the token's parameters, such as total supply, token name, symbol, and additional features or functionalities. Once the token is created, the team should conduct thorough testing to ensure its functionality and security.

Step 5: Launch the Token and Raise Funds

The project team can start the token sale with the IDO launchpad's approval. During this phase, investors can purchase the project's tokens at a discounted rate.

The team may incentivize early investors with additional benefits or rewards to encourage participation. The goal is to raise funds and generate liquidity for the project.

Step 6: Provide Liquidity and List the Token

After the IDO, the project team allocates a portion of the raised funds to provide liquidity on the DEX. This helps ensure a healthy trading environment for the token.

Simultaneously, the team lists the token on the DEX, making it available for trading to the general public. This immediate listing allows investors to buy and sell the token without any waiting period.

Step 7: Post-IDO Support and Growth

Once the IDO is complete, the project team must focus on sustaining the momentum and supporting the token's growth. This involves engaging with the community, updating investors on project developments, and promoting the token's adoption.

Ongoing marketing efforts and strategic partnerships can drive demand for the token and contribute to its long-term success.

This step-by-step process allows project teams to launch a successful IDO and raise funds to support their crypto project.

Successful Projects Launched From IDOs

The IDO model has launched successful crypto projects. Here are a few notable examples:

1. Raven Protocol IDO

Raven Protocol, a decentralized deep-learning training protocol, conducted one of the first IDOs in June 2019. The project aimed to transform the AI and machine learning industries by leveraging blockchain technology. Through their IDO, Raven Protocol raised funds and gained exposure on the Binance DEX.

2. Universal Market Access Protocol IDO

The Universal Market Access (UMA) protocol, which enables DeFi developers to create synthetic assets on the Ethereum blockchain, also conducted a successful IDO.

Despite initial issues during the IDO launch, UMA overcame challenges and achieved significant growth. The project's token, UMA, has gained traction in recent times.

3. SushiSwap IDO

SushiSwap, a decentralized exchange built on Ethereum, launched through an IDO and quickly gained popularity as an alternative to Uniswap. It allowed users to migrate over $1.14 billion worth of assets from Uniswap to SushiSwap. The IDO model enabled SushiSwap to distribute its tokens fairly, without favoritism towards insiders or early investors.

These successful projects demonstrate the potential of IDOs as a fundraising model. By leveraging the decentralized nature of DEXs, projects can raise funds, gain exposure, and build a community around their tokens.

Advantages and Disadvantages of IDOs

Like any fundraising model, IDOs have their own advantages and disadvantages. Understanding these pros and cons is essential for project teams considering the IDO approach.

Advantages of IDOs

Decentralization: IDOs operate on decentralized exchanges, ensuring transparency, fairness, and equal opportunities for all participants.
Immediate Liquidity: IDOs provide immediate liquidity for the project's token by listing it on the DEX after the sale. This allows investors to buy and sell the token without any waiting period.
Lower Entry Barriers: IDOs have lower entry barriers than traditional fundraising methods like ICOs. Small teams with innovative ideas can gain access to capital and launch their projects.
Community Involvement: IDOs often rely on community support and engagement. Vocal community members play a crucial role in vetting projects and tokens, enhancing the project's reach and credibility.

Disadvantages of IDOs

Scalability: DEXs, the primary platform for IDOs, currently have limitations in terms of scalability compared to centralized exchanges. This can impact the amount of funds raised through an IDO.
Technical Vulnerabilities: DEXs and smart contracts used in IDOs can be vulnerable to technical exploits and bugs. Hackers have exploited these vulnerabilities in the past, leading to loss of funds.
Learning Curve: DEXs and DeFi platforms, in general, can have a steep learning curve, deterring potential investors who are unfamiliar with the technology. Education and user-friendly interfaces are needed to address this challenge.
Lower Fundraising Amounts: Compared to ICOs, IDOs typically raise smaller amounts of funds. While this can be advantageous for smaller projects, it may limit the growth potential for larger-scale initiatives.

Despite these disadvantages, IDOs offer a promising alternative to traditional fundraising models. With proper precautions and education, the IDO model has the potential to drive innovation, support new projects, and foster a more inclusive crypto ecosystem.

Alternatives to IDOs

While IDOs have gained popularity, there are other fundraising options available to crypto projects. Other alternatives include:

Initial Coin Offerings (ICOs): Although ICOs have faced criticism, they remain viable for projects that prefer a centralized approach and have the resources to navigate regulatory requirements.
Initial Exchange Offerings (IEOs): IEOs involve partnering with a centralized exchange to conduct the token sale. This model offers greater visibility and access to a more extensive investor base.
Security Token Offerings (STOs): STOs issue security tokens that comply with regulatory frameworks. STOs provide investors with legal rights and ownership of the project.
Venture Capital (VC) Funding: Traditional venture capital firms invest in crypto projects. VC funding offers financial support, industry expertise, and valuable connections.

Each fundraising method has pros and cons, and project teams should carefully consider their goals, resources, and target audience before choosing the most suitable approach.

Differences Between an ICO and an IDO

While ICOs and IDOs are both fundraising models in the crypto space, they differ in several key aspects:

Control and Regulation: ICOs operate in a largely unregulated environment, whereas IDOs leverage the decentralized nature of DEXs, providing more control and transparency to investors.
Investor Protections: ICOs often lack investor protection, leading to numerous scams and fraudulent projects. IDOs aim to address this issue by providing fair token access and eliminating pre-mines.
Token Liquidity: IDOs offer immediate token liquidity by listing the token on the DEX after the sale. ICOs typically require a waiting period before the token is listed on centralized exchanges.
Fundraising Amounts: ICOs historically raised larger funds than IDOs. However, IDOs allow smaller projects to raise capital and gain exposure.
Centralization vs. Decentralization: ICOs rely on centralized exchanges and intermediaries, whereas IDOs leverage the decentralized nature of DEXs, fostering a more inclusive and transparent fundraising environment.

Project teams and investors must understand these differences when considering their fundraising options and evaluating potential investment opportunities.

Future Outlook - Initial DEX Offering

The future of Initial DEX Offerings (IDOs) looks promising as the crypto industry continues to evolve. IDOs have gained traction due to their decentralized and transparent nature, offering an alternative to traditional fundraising models.

While they may face scalability challenges and technical vulnerabilities, ongoing advancements in blockchain technology and user-friendly interfaces are expected to address these issues.

As the DeFi space matures, more projects will likely explore IDOs as a fundraising option. Educational initiatives and improved accessibility will be crucial in attracting more investors, including those new to crypto.

Also, regulatory frameworks may evolve to provide more precise guidelines for IDOs, striking a balance between innovation and investor protection.

The future of IDOs also depends on developing DEXs as scalable and user-friendly platforms. Improvements in liquidity, trading interfaces, and security measures will enhance the overall IDO experience, attracting more projects and investors to participate.

Conclusion

In conclusion, IDOs have emerged as a decentralized and fair fundraising model in the crypto industry. While they have advantages and challenges, IDOs offer an inclusive and transparent approach to raising funds for innovative projects.

As the crypto ecosystem continues to evolve, IDOs are expected to play a significant role in shaping the future of fundraising in the digital asset space.

Disclaimer

The information provided on this website does not constitute investment advice, financial advice, trading advice, or any other advice, and you should not treat any of the website's content as such.

Token Metrics does not recommend buying, selling, or holding any cryptocurrency. Conduct your due diligence and consult your financial advisor before making investment decisions.

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APIs Explained: What an API Does and Why It Matters

Token Metrics Team

MIN

APIs power much of the modern software economy, but the term can feel abstract. This guide breaks down what an API is, how APIs work in practice, common types you’ll encounter, and practical frameworks for evaluating or integrating an API into your projects.

What is an API? A concise definition

An API, or application programming interface, is a set of rules and protocols that lets different software components communicate. Think of an API as a contract: one system exposes specific operations (endpoints) and data structures, and other systems call those operations to request services or information. The API hides internal complexity and provides a predictable interface for developers.

At its core, an API specifies:

The actions available (e.g., read data, submit a transaction, trigger a process).
The input and output formats (often JSON or XML for web APIs).
The transport protocol and authentication methods (HTTP, gRPC, OAuth, API keys).

How APIs work — protocols, endpoints, and flows

APIs can be implemented with different technologies, but common patterns include REST, GraphQL, and RPC (gRPC). A typical web API flow involves a client sending an HTTP request to an endpoint URL, the server processing that request, and then returning a structured response. Key components to understand:

Endpoint: A specific URL that performs an action or returns data.
Method: HTTP verbs such as GET, POST, PUT, DELETE indicate intent.
Payload: The data sent with requests (body) or returned (response).
Authentication: Controls access — API keys, OAuth tokens, or signed requests.
Rate limits: Servers often limit calls per minute to protect resources.

Understanding these pieces helps you design predictable integrations and debug issues like unexpected latencies or malformed responses.

Common API types and real-world examples

Different APIs serve different needs. Here are common categories and examples:

Public / Open APIs: Accessible to external developers. Examples: public weather APIs, mapping APIs.
Private APIs: Used internally within an organization to modularize services.
Partner APIs: Shared with specific partners under contract.
Web APIs (REST/GraphQL): Most common for web and mobile apps. REST APIs expose resources via endpoints; GraphQL exposes a flexible query schema.
Streaming / WebSocket APIs: Real-time data feeds such as live market prices or chat messages.

Practical examples: integrating a payment processor via its REST API, pulling exchange rates from a crypto API for display, or using a mapping API to embed location features.

Evaluating and integrating APIs: a practical checklist

When researching or choosing an API, apply a short framework: compatibility, cost, reliability, and security (CCRS).

Compatibility: Does the API support the required protocols and data formats? Is client SDK support available for your stack?
Cost: Understand pricing tiers, rate limits, and overage fees. Check if a free tier or trial exists for testing.
Reliability: Review historical uptime, SLAs, and status page transparency. Look for rate limit details and failover options.
Security: Evaluate authentication models, data encryption, and compliance notes (e.g., GDPR, SOC2 where relevant).

Additional integration tips: use sandbox environments for testing, log API requests/responses for troubleshooting, and build retry/backoff logic to handle transient failures.

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FAQ: Common questions about APIs

What is the difference between REST and GraphQL?

REST defines endpoints that return fixed data structures, which can result in over- or under-fetching. GraphQL exposes a query language where clients request exactly the fields they need, reducing extra data transfer but adding schema complexity on the server side.

How do API keys differ from OAuth tokens?

API keys are simple credentials often used for server-to-server authentication or identifying an app. OAuth is an authorization framework that enables delegated access (user consents) and typically issues short-lived access tokens with refresh mechanics for better security.

Are APIs secure by default?

No. Security depends on implementation: use HTTPS, validate and sanitize inputs, enforce proper authentication/authorization, rotate keys periodically, and monitor for unusual activity. Treat APIs as a potential attack surface and apply standard security controls.

What are typical API rate limits and how should I handle them?

Rate limits vary widely: some services allow thousands of requests per minute, others are stricter. Implement client-side throttling, exponential backoff on retries, and caching where appropriate to reduce request volume and avoid hitting limits.

How can AI and analytics help when working with APIs?

AI-driven tools can help parse API responses, detect anomalies, prioritize endpoints by value, and synthesize insights from multiple data feeds. Platforms such as Token Metrics use AI to aggregate on-chain and market data, which can speed evaluation when integrating crypto-related APIs.

What are common pitfalls when building with third-party APIs?

Common issues include unexpected breaking changes, insufficient error handling, underestimating rate limits, hidden costs, and lack of observability. Mitigate these by reading docs thoroughly, using versioned endpoints, and automating monitoring and alerts.

Disclaimer: This article is for educational and informational purposes only. It explains technical concepts and practical frameworks related to APIs and does not provide investment, legal, or professional advice. Evaluate services independently and consult appropriate experts for decision-making.

Research

APIs Explained: How They Power Web & Crypto Apps

Token Metrics Team

MIN

APIs — short for Application Programming Interfaces — are the invisible wiring that connects software, data, and services. From mobile apps fetching weather to crypto platforms streaming on-chain data, APIs turn discrete systems into interoperable ecosystems. This guide explains what an API is, how it works, common types and protocols, practical evaluation criteria, and how AI-driven tools can help you research and integrate APIs safely and effectively.

What is an API? A practical definition

An API is a set of rules and conventions that lets one software program request services or data from another. Think of it as a contract: the provider exposes endpoints and documented inputs/outputs, and the consumer sends requests and receives structured responses. APIs abstract complexity, enforce consistency, and enable modular development.

At a high level, an API specifies:

Available operations (endpoints) and the expected parameters
Data formats for requests and responses (JSON, XML, etc.)
Authentication and authorization methods (API keys, OAuth)
Rate limits, error handling, and versioning policies

How APIs work: endpoints, methods and data flow

Most modern web APIs operate over HTTP. A consumer makes a request to a URL (endpoint) using an HTTP method such as GET, POST, PUT, or DELETE. The server processes the request and returns a response payload plus status codes that signal success or error.

Core concepts:

Endpoint: A URI representing a resource or action (e.g., /prices/bitcoin).
Request: Includes method, headers (authentication, content-type), query or body parameters.
Response: Status code (200, 404, 500) and structured data (commonly JSON).
Idempotency: Whether repeated requests have the same effect (important for retries).

Understanding these mechanics helps you design integrations, debug issues, and interpret API documentation efficiently.

Common API types and protocols

Not all APIs are built the same. Choosing the right style depends on use case, performance needs, and client ecosystem.

REST APIs: Resource-based, conventionally using HTTP verbs and stateless interactions. Popular due to simplicity and broad tooling support.
GraphQL: Query language that lets clients request exactly the fields they need. Useful when clients need flexible, efficient queries across related data.
WebSockets: Persistent, bidirectional socket connections ideal for real-time updates (chat, market feeds).
gRPC: High-performance RPC framework using Protocol Buffers—good for microservices and low-latency systems.
SOAP: Legacy, XML-based protocol with strict standards—still used in some enterprise environments.

Each approach has trade-offs: REST is simple but may require multiple round-trips, GraphQL reduces over-fetching but adds server complexity, and WebSockets enable streaming but require connection management.

Security, authentication, and operational governance

APIs often provide access to valuable data and functionality, so security and governance are paramount. Key considerations include:

Authentication: API keys, OAuth 2.0, JWTs. Choose methods that match risk and user flows.
Authorization: Enforce least privilege—limit which endpoints and operations each credential can access.
Rate limits and quotas: Protect infrastructure from overload and abusive usage.
Encryption & TLS: Always use HTTPS for data in transit; consider encryption at rest for sensitive payloads.
Auditing & monitoring: Log access patterns, errors, and anomalies for forensic and operational visibility.
Versioning: Maintain backward compatibility with explicit versioning strategies to avoid breaking consumers.

Operational SLAs, clear error codes, and robust documentation reduce integration friction and surface potential risks early.

How to evaluate and integrate an API: a practical checklist

When assessing a third-party API, use a structured framework:

Documentation quality: Are endpoints, schemas, examples, and rate limits clearly described?
Sandbox & test keys: Is there a sandbox for dry runs without impacting production data?
Latency & throughput: Does the API meet your performance requirements under expected load?
Reliability: Check status pages, historical uptime, and incident response practices.
Cost model: Understand pricing tiers, overage fees, and whether free tiers suffice for initial development.
Security posture: What authentication methods, encryption, and compliance certifications are provided?

For proofs of concept, use API testing tools (Postman, curl) and programmatic SDKs where available. Track metrics during integration and plan for retries, backoff strategies, and graceful degradation.

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FAQ: What is an API?

An API (Application Programming Interface) is a defined set of rules and endpoints that allows one software system to request data or services from another. It standardizes how data is exchanged and operations are invoked between systems.

FAQ: REST vs GraphQL — when to use each?

REST is simple and widely supported, ideal for straightforward resource-based access. GraphQL excels when clients need flexible, aggregated queries and want to reduce over-fetching. Choice depends on client needs and server complexity tolerance.

FAQ: How do APIs stay secure?

Security relies on strong authentication (API keys, OAuth), encryption (HTTPS/TLS), authorization controls, rate limiting, input validation, and monitoring. Regular audits and threat modeling help identify and mitigate risks.

FAQ: What are common API use cases?

APIs power mobile and web apps, payment processing, identity providers, data feeds (market, weather, maps), IoT device control, and integrations between enterprise systems or blockchain nodes.

FAQ: How do I test an API safely?

Use sandbox environments and test keys where available. Employ tools like Postman for exploratory testing, write automated integration tests, validate edge cases and error handling, and verify rate-limit behaviors under load.

Disclaimer

This article is for educational and informational purposes only. It explains technical concepts and evaluation frameworks but does not constitute professional, legal, or investment advice. Always perform your own due diligence when selecting or integrating APIs.

Research

APIs Explained: How They Work and Why They Matter

Token Metrics Team

MIN

APIs sit at the center of modern software. Whether a mobile app fetches weather data, a dashboard queries on-chain activity, or an AI agent calls a language model, an API is the bridge that enables machines to communicate. This article breaks down what an API is, how it works, common types and use cases, and practical steps to evaluate and use one safely and effectively.

What Is an API?

An API (Application Programming Interface) is a defined set of rules and protocols that allow software components to communicate. It specifies the methods available, the expected inputs and outputs, and the underlying conventions for transport and encoding. In web development, APIs typically include endpoints you can call over HTTP, request and response formats (commonly JSON), and authentication rules.

Think of an API as a contract: the provider promises certain functionality (data, computations, actions) and the consumer calls endpoints that adhere to that contract. Examples include a weather API returning forecasts, a payment API creating transactions, or a blockchain data API exposing balances and transactions.

How APIs Work: The Technical Overview

At a technical level, most web APIs follow simple request/response patterns:

Client issues an HTTP request to an endpoint (URL).
Request includes a method (GET, POST, PUT, DELETE), headers, authentication tokens, and optionally a body.
Server processes the request and returns a response with a status code and a body (often JSON).

Key concepts to understand:

HTTP methods: indicate intent—GET to read, POST to create, PUT/PATCH to update, DELETE to remove.
Authentication: can use API keys, OAuth tokens, JWTs, or mutual TLS. Authentication defines access and identity.
Rate limits: providers throttle calls per unit time to protect infrastructure.
Versioning: APIs use versioned endpoints (v1, v2) so changes don’t break consumers.
Webhooks: push-style endpoints that let providers send real-time events to a consumer URL.

Types of APIs and Common Use Cases

APIs come in many shapes tailored to different needs:

REST APIs: resource-oriented, use HTTP verbs and stateless requests. Widely used for web services.
GraphQL: provides a flexible query layer so clients request exactly the fields they need.
gRPC: high-performance, binary protocol ideal for internal microservices.
WebSocket/APIs for streaming: support continuous two-way communication for real-time data.

Use cases span industries: integrating payment gateways, building mobile backends, connecting to cloud services, feeding analytics dashboards, and powering crypto tools that stream price, order book, and on-chain data. AI systems also consume APIs—calling models for text generation, embeddings, or specialized analytics.

How to Build, Evaluate and Use an API

Whether you are a developer integrating an API or evaluating a provider, use a systematic approach:

Read the docs: good documentation should include endpoints, example requests, error codes, SDKs, and usage limits.
Test quickly: use tools like curl or Postman to make basic calls and inspect responses and headers.
Check authentication and permissions: ensure tokens are scoped correctly and follow least-privilege principles.
Evaluate performance and reliability: review SLA information, latency benchmarks, and historical uptime if available.
Understand pricing and quotas: map expected usage to cost tiers and rate-limits to avoid surprises.
Security review: watch for sensitive data exposure, enforce transport encryption (HTTPS), and rotate keys regularly.

For domain-specific APIs, such as those powering crypto analytics or trading signals, additional considerations include data freshness, source transparency (e.g., direct node reads vs. indexers), and on-chain coverage. Tools that combine data feeds with AI analytics can speed research—one example of a platform in that space is Token Metrics, which layers model-driven insights on top of market and on-chain inputs.

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Token Metrics provides real-time prices, trading signals, and on-chain insights all from one powerful API. Grab a Free API Key

FAQ — What Is an API?

Q: What is the difference between an API and an SDK?

A: An API is a set of rules for communicating with a service. An SDK (Software Development Kit) is a bundled set of tools, libraries, and often an API wrapper that helps developers integrate with that service more easily in a specific programming language.

FAQ — REST vs GraphQL: Which to use?

Q: When is GraphQL preferable to REST?

A: GraphQL is useful when clients need flexible queries and want to avoid over- or under-fetching data. REST remains a strong default for simple, cache-friendly resource-based services and broad interoperability.

FAQ — API Security

Q: What are basic security best practices for APIs?

A: Require HTTPS, enforce strong authentication (OAuth, signed tokens), validate and sanitize inputs, implement rate limits, use scopes for permissions, and log access for auditability. Rotate credentials and monitor anomalous usage.

FAQ — Using Crypto APIs

Q: How do I get started with crypto or market data APIs?

A: Begin by identifying the data you need (prices, order books, on-chain events), locate providers with clear documentation and sample code, test endpoints in a sandbox, and account for latency and historical coverage. Combining raw feeds with analytics tools can help accelerate research.

FAQ — API Keys and Rate Limits

Q: What is an API key and why are rate limits important?

A: An API key is a token that identifies and authenticates a client. Rate limits prevent abuse and keep shared services stable—exceeding limits typically returns 429 errors and may incur additional costs or temporary blocks.

Disclaimer

This content is for informational and educational purposes only. It does not constitute investment, legal, tax, or professional advice. Evaluate tools, APIs, and services according to your own research and risk tolerance.

Token Metrics Media LLC is a regular publication of information, analysis, and commentary focused especially on blockchain technology and business, cryptocurrency, blockchain-based tokens, market trends, and trading strategies.

Token Metrics Media LLC does not provide individually tailored investment advice and does not take a subscriber’s or anyone’s personal circumstances into consideration when discussing investments; nor is Token Metrics Advisers LLC registered as an investment adviser or broker-dealer in any jurisdiction.

Information contained herein is not an offer or solicitation to buy, hold, or sell any security. The Token Metrics team has advised and invested in many blockchain companies. A complete list of their advisory roles and current holdings can be viewed here: https://tokenmetrics.com/disclosures.html/

Token Metrics Media LLC relies on information from various sources believed to be reliable, including clients and third parties, but cannot guarantee the accuracy and completeness of that information. Additionally, Token Metrics Media LLC does not provide tax advice, and investors are encouraged to consult with their personal tax advisors.

All investing involves risk, including the possible loss of money you invest, and past performance does not guarantee future performance. Ratings and price predictions are provided for informational and illustrative purposes, and may not reflect actual future performance.

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