{"id":"swarmbase","title":"SwarmBase","content":"Swarmbase aims to provide decentralized infrastructure for deploying, coordinating, and verifying autonomous AI agent swarms. The project describes a protocol and developer stack oriented around multi‑agent orchestration, decentralized compute, messaging, verification, and economic coordination, with a dual‑chain design across opBNB and BNB Smart Chain (BSC). [\\[1\\]](#cite-id-6XJEQSo9ezFYe7wX) [\\[2\\]](#cite-id-r76RTls0FW3h6uJm)\n\n## Overview\n\nSwarmbase is positioned as a protocol to address coordination, compute access, and verification challenges for multi‑agent AI systems. The platform separates high‑frequency execution and inter‑agent messaging on opBNB from settlement, staking, and governance on BSC, aiming to support swarm‑scale coordination with low‑latency messaging, decentralized compute, cryptographic verification of outputs, and developer tooling for building and deploying multi‑agent workflows. The project materials state that governance is organized in the British Virgin Islands and provide a legal contact. [\\[1\\]](#cite-id-6XJEQSo9ezFYe7wX) [\\[2\\]](#cite-id-r76RTls0FW3h6uJm)\n\nThe roadmap presented by the project delineates several phases. Phase 01 (Q1–Q2 2026), labeled “Foundation,” is described as complete and includes deployments of SwarmCore and SwarmBadge on opBNB, a public dApp, and contract source verification. Phase 02 (Q2 2026), labeled “Token Launch,” is presented as active and includes SWARM token deployment on BSC, vesting locks, liquidity provisioning, and an airdrop based on a TGE snapshot. Phases 03–05 (Q3 2026–2027) are listed as upcoming, covering activation of staking and governance modules, fee mechanisms and emissions, a marketplace, coordinator and verifier components with TEE attestation, SDKs and grants, and longer‑term research targets such as Proof of Inference and ZKML‑based verification. These milestones are described by the project and may require independent confirmation where applicable. [\\[1\\]](#cite-id-6XJEQSo9ezFYe7wX) [\\[2\\]](#cite-id-r76RTls0FW3h6uJm)\n\nPublic presence includes the website and whitepaper, a GitHub organization, a core service endpoint, a company LinkedIn page, and a market/listing page. A market aggregator page reports total funds raised of $3.00M with the latest round labeled as an Extended Seed on March 17, 2026; investor details are not publicly listed in the accessible summary. [\\[3\\]](#cite-id-YSUdDAbwIzZT9sBY)\n\nTwo representative statements from the project’s documents illustrate its scope and design choices:\n\n* “SwarmBase aims to provide an infrastructure layer for coordinated autonomous agent swarms, built natively on BNB Chain.” [\\[2\\]](#cite-id-r76RTls0FW3h6uJm)\n* “The platform separates high‑frequency execution and inter‑agent messaging (opBNB) from settlement, staking, and governance (BSC).” [\\[2\\]](#cite-id-r76RTls0FW3h6uJm)\n\n## Products\n\nThe project describes several components spanning orchestration, compute, messaging, verification, and developer tooling. SwarmCore is presented as an orchestration engine for task decomposition, hierarchical planning, dynamic agent assignment, and consensus/failover handling, and is indicated as deployed on opBNB for early engagement (registration, check‑ins, referrals, and a pre‑TGE points metric). SwarmBadge, also described as deployed on opBNB, issues non‑transferable (soulbound) badges (e.g., Pioneer, Builder, OG) for contributors. A canonical BEP‑20 token, SwarmToken, is planned on BSC at TGE. Planned protocol modules include StakeVault (staking, delegation, slashing escrow with unbonding), GovernanceModule (two‑tier on‑chain governance), RewardDistributor (epoch rewards on opBNB), SwarmCoordinator (task routing and DAG management), and VerifierGateway (TEE attestation and ZKML verification). Developer‑facing resources emphasize SDKs in Python, TypeScript, and Rust, plus integrations with agent frameworks. [\\[1\\]](#cite-id-6XJEQSo9ezFYe7wX) [\\[2\\]](#cite-id-r76RTls0FW3h6uJm)\n\n## Features\n\nThe described feature set combines orchestration, decentralized compute, messaging/state, verification, and developer tooling. Task orchestration emphasizes hierarchical decomposition and robust handling of failures and adversarial behavior. Decentralized compute is outlined as a peer‑to‑peer GPU marketplace (ComputeMesh) supporting automated bidding and cryptographic proofs for verifiable off‑chain work. Messaging and state handling (HiveMind) are presented as low‑latency agent‑to‑agent channels with persistent memory streams and multimodal context sharing. Verification (Proof of Swarm) aims to standardize cryptographic proofs of agent outputs with validator staking and slashing for dishonest behavior, producing on‑chain audit trails. The developer stack includes SDKs, framework integrations (e.g., LangChain, AutoGen, CrewAI), agent templates, and deployment tooling. Some performance and adoption metrics (e.g., sub‑50ms orchestration, <10ms messaging, and deployment counts) are attributed to project materials and are not independently verified. [\\[1\\]](#cite-id-6XJEQSo9ezFYe7wX) [\\[2\\]](#cite-id-r76RTls0FW3h6uJm)\n\n## Ecosystem\n\nProject materials describe several participant roles. “Swarm Deployers” are companies and developers who launch agent swarms for automation, research, and production workflows. “GPU Providers” supply compute resources to the ComputeMesh and are intended to receive rewards. “Validators” are stakers who verify outputs and proofs and may be subject to slashing. “Developers” build templates, integrations, and applications using the SDKs, with references to revenue sharing and grants. “DAO/Governance” actors are SWARM holders expected to vote on protocol parameters and treasury when governance is active. Public artifacts include a GitHub organization, the website/whitepaper, and an operational dApp endpoint; the whitepaper treats certain engagement systems on opBNB as live and core governance and staking as roadmap items. [\\[1\\]](#cite-id-6XJEQSo9ezFYe7wX) [\\[2\\]](#cite-id-r76RTls0FW3h6uJm)\n\nA company LinkedIn page provides an additional organizational touchpoint; however, it does not list comprehensive leadership, partner, or funding details. [\\[4\\]](#cite-id-hKCxgv6QzVRwoZco)\n\n## Use Cases\n\n* Enterprise automation workflows using coordinated multi‑agent swarms\n* Research workflows requiring chained or specialized inference agents\n* Product workflows that compose multiple specialized agents for complex outputs\n* General multi‑step tasks requiring decomposition, delegation, and verification\n\nThese use cases are listed in project materials and whitepaper descriptions. [\\[1\\]](#cite-id-6XJEQSo9ezFYe7wX) [\\[2\\]](#cite-id-r76RTls0FW3h6uJm)\n\n## Architecture\n\n### Dual‑chain design\n\nSwarmbase describes a dual‑layer architecture that runs high‑frequency agent execution and messaging on opBNB (an L2 environment with sub‑second blocks) while handling settlement, token transfers, staking, governance, and slashing on BNB Smart Chain (BSC). This separation aims to provide low‑latency agent interactions alongside a more conservative settlement layer. Early engagement modules (e.g., SwarmCore and SwarmBadge) are reported as deployed on opBNB, while the canonical SWARM token and governance/staking modules are situated on BSC according to the roadmap. [\\[2\\]](#cite-id-r76RTls0FW3h6uJm) [\\[1\\]](#cite-id-6XJEQSo9ezFYe7wX)\n\n### Swarm primitive and orchestration\n\nThe core execution model is framed as “swarms‑as‑DAG,” where agents and typed message channels form a directed acyclic graph with support for nested sub‑swarms. The orchestration engine (SwarmCore) targets hierarchical task decomposition, dynamic agent assignment, consensus among agents, and failover handling. Claimed performance targets include sub‑50ms orchestration latency; these are reported by the project and are not independently verified here. [\\[1\\]](#cite-id-6XJEQSo9ezFYe7wX) [\\[2\\]](#cite-id-r76RTls0FW3h6uJm)\n\n### Messaging and state\n\nHiveMind is described as a low‑latency messaging substrate with persistent memory streams and multimodal context propagation between agents, with end‑to‑end encryption. The materials present <10ms messaging latency as a claim. State handling on opBNB is discussed in terms of hierarchical tries and a propose‑commit‑reveal pattern for state transitions, with periodic anchoring of global state roots to BSC at epoch boundaries. [\\[1\\]](#cite-id-6XJEQSo9ezFYe7wX) [\\[2\\]](#cite-id-r76RTls0FW3h6uJm)\n\n### Decentralized compute\n\nComputeMesh is characterized as a peer‑to‑peer GPU marketplace that enables resource discovery, automated bidding, and cryptographic proofs for verifying off‑chain compute. The aim is to reduce costs while providing verifiable computation results to agent workflows. Specific proof systems are discussed in the roadmap, including TEE attestation paths and eventual zero‑knowledge proof strategies for ML inference. [\\[1\\]](#cite-id-6XJEQSo9ezFYe7wX) [\\[2\\]](#cite-id-r76RTls0FW3h6uJm)\n\n### Verification and accountability\n\nThe Proof of Swarm verification layer is intended to produce cryptographic proofs of agent outputs, with validators staking SWARM and subject to slashing for misbehavior. Slashing conditions outlined in the whitepaper include false or double attestations, extended downtime, and fabrication of proofs, with penalties and reward splits to reporters and treasury. The roadmap references Trusted Execution Environment attestation (Intel SGX, AMD SEV) and PLONK‑based ZKML for inference verification in later phases, plus a research direction called Proof of Inference that treats useful inference as a consensus metric with validator attestation. [\\[2\\]](#cite-id-r76RTls0FW3h6uJm)\n\n### Developer tooling and integrations\n\nThe Swarmbase SDK is described as cross‑language (Python, TypeScript, Rust) with integrations into agent frameworks such as LangChain, AutoGen, and CrewAI, agent templates, and single‑command deployment tooling. The whitepaper and site also reference a developer API and an agent marketplace targeted for activation in subsequent phases. [\\[1\\]](#cite-id-6XJEQSo9ezFYe7wX) [\\[2\\]](#cite-id-r76RTls0FW3h6uJm)\n\n### Security, audits, and compliance notes\n\nProject materials state that a smart contract audit was “in progress” around the conclusion of Phase 01, and that contract source verification was completed for certain opBNB deployments. Verification pathways emphasize GDPR‑considerate designs and the use of TEE and ZKML in later phases. The governance design includes risk‑reduction mechanisms (e.g., timelocks, temporary security council with veto) slated for progressive decentralization. These items are reported by the project and, where relevant, depend on future milestones. [\\[1\\]](#cite-id-6XJEQSo9ezFYe7wX) [\\[2\\]](#cite-id-r76RTls0FW3h6uJm)\n\n## Tokenomics\n\nProject materials present SWARM as a fixed‑supply BEP‑20 token on BSC with economic roles in staking, fees, rewards, and planned governance. The whitepaper specifies 1,000,000,000 SWARM total supply with no mint function, no transfer restrictions, and no proxy upgradeability. Token deployment and distribution mechanics are associated with the Phase 02 roadmap (Token Launch). [\\[2\\]](#cite-id-r76RTls0FW3h6uJm) [\\[1\\]](#cite-id-6XJEQSo9ezFYe7wX)\n\n### Allocation\n\n* Community: 20%\n* Team: 15%\n* Ecosystem Rewards: 15%\n* Marketing: 12%\n* Strategic Round: 10%\n* Treasury: 8%\n* Liquidity: 8%\n* [Reserve](https://iq.wiki/wiki/reserve): 7%\n* Strategic Partners: 5%\n\nThese percentages and labels are provided in the project’s tokenomics materials. [\\[1\\]](#cite-id-6XJEQSo9ezFYe7wX) [\\[2\\]](#cite-id-r76RTls0FW3h6uJm)\n\n### Vesting and distribution mechanics\n\nThe vesting schedule described includes a 12‑month cliff with subsequent linear vesting for Strategic Round and Strategic Partners (12‑month linear), a 12‑month cliff with 24‑month linear vesting for the Team, and various short cliffs and linear vesting profiles for Community, Marketing, and Ecosystem Rewards. Liquidity is allocated at TGE for exchange liquidity, with LP tokens noted as locked for at least 12 months per the whitepaper. Custody is described via Team.Finance for selected allocations and Gnosis [Safe](https://iq.wiki/wiki/safe) multisigs for others. The site and whitepaper present differing initial unlock percentages for certain categories (e.g., community unlocks) across versions; the whitepaper is explicit on the fixed‑supply token without mint function, and the roadmap labels token deployment and liquidity as Token Launch items. [\\[2\\]](#cite-id-r76RTls0FW3h6uJm) [\\[1\\]](#cite-id-6XJEQSo9ezFYe7wX)\n\n### Utilities\n\n* [Staking](https://iq.wiki/wiki/staking) and validator participation to attest to results and earn rewards\n* Protocol fees on agent task execution with a stated burn component\n* Reward distribution to swarm participants via epoch emissions (planned)\n* Payments to GPU/compute providers for verified compute jobs\n* Incentives via ecosystem grants and reward distributions\n\nThese utilities and fee mechanics are described across the site and whitepaper, with roadmap timing indicating staged activation. [\\[1\\]](#cite-id-6XJEQSo9ezFYe7wX) [\\[2\\]](#cite-id-r76RTls0FW3h6uJm)\n\n### Emissions, fees, and staking parameters\n\nPlanned emissions include an initial annual emission from the ecosystem allocation with an annual halving schedule, disbursed per epoch (the whitepaper targets six‑hour epochs and gives a notional year‑one per‑epoch figure). Protocol fees on agent task execution are proposed at 3%, with 2% burned and the remainder split between treasury and validators. [Staking](https://iq.wiki/wiki/staking) parameters, as described, include a configurable minimum validator stake, a 14‑day unbonding period, and applicability of slashing during unbonding. These parameters are roadmap items and subject to on‑chain governance once activated. [\\[2\\]](#cite-id-r76RTls0FW3h6uJm)\n\n### Governance\n\nThe project outlines a two‑tier on‑chain governance model intended to activate after the Token Launch and initial protocol activation. Parameter Governance would cover numeric protocol settings (e.g., stakes, emissions, fees) with a simple majority and defined quorum, while Structural Governance would address contract upgrades and treasury disbursements with a supermajority and higher quorum. A proposal process is specified (bond, discussion window, voting window, and execution timelock), alongside a temporary Security Council with veto powers intended for reduction and eventual removal as decentralization progresses. Governance materials also indicate an intended “1 token = 1 vote” mechanism when GovernanceModule is active. [\\[2\\]](#cite-id-r76RTls0FW3h6uJm) [\\[1\\]](#cite-id-6XJEQSo9ezFYe7wX)\n\n## Confirmed Partnerships\n\n* No externally named third‑party partners are listed in publicly available project documents.\n* Planned strategic partnerships with AI infrastructure providers and GPU compute networks are referenced without named organizations.\n\nProject materials describe plans and intentions but do not provide confirmed third‑party partner names as of the referenced documents. [\\[1\\]](#cite-id-6XJEQSo9ezFYe7wX) [\\[2\\]](#cite-id-r76RTls0FW3h6uJm)\n\n## Products (Detailed)\n\nSwarmCore is described as the orchestration engine that registers participants, manages task decomposition, and coordinates agents through hierarchical planning, consensus, and failover routines. Early engagement functionality includes registration, daily check‑ins, referral tracking, and a pre‑TGE on‑chain points mechanism. SwarmBadge issues non‑transferable badges to early contributors across categories such as Pioneer, Builder, and OG. The SwarmCoordinator is planned to manage DAG‑based workflows and task routing in later phases. The VerifierGateway is intended to integrate TEE attestation pipelines (Intel SGX/AMD SEV) and, over time, ZKML provers for inference verification. The RewardDistributor is structured to emit rewards per epoch on the execution layer, while StakeVault and GovernanceModule bring staking and governance online during the Protocol Activation phase. [\\[1\\]](#cite-id-6XJEQSo9ezFYe7wX) [\\[2\\]](#cite-id-r76RTls0FW3h6uJm)\n\nDeveloper resources are presented as SDKs in Python, TypeScript, and Rust, with integrations into agent frameworks such as LangChain, AutoGen, and CrewAI. The platform roadmap includes a developer API and marketplace for agent templates and components. A public GitHub organization exists for code and documentation; however, not all modules described in the roadmap are indicated as available at the time of the referenced documents. [\\[2\\]](#cite-id-r76RTls0FW3h6uJm) [\\[5\\]](#cite-id-UipThJTDlSQ11StV)\n\n## Features (Detailed)\n\nThe orchestration features emphasize swarms‑as‑DAG semantics that enable multiple agents to execute in parallel or sequence with typed message channels. The hierarchical task planning approach aims to break complex workflows into sub‑tasks handled by specialized agents, with dynamic assignment and failover to mitigate agent failure or adversarial behavior. The messaging layer is designed for low‑latency communication and persistent context sharing to support multimodal inputs and outputs. Verification integrates staking‑based validation and slashing to incentivize honest behavior, with on‑chain audit trails for reproducibility. Project materials describe GDPR‑aware verification considerations and the intention to support TEEs and ZK proofs for inference verification in later phases. Some quantitative performance claims are presented by the project and should be interpreted as such in the absence of third‑party benchmarks. [\\[1\\]](#cite-id-6XJEQSo9ezFYe7wX) [\\[2\\]](#cite-id-r76RTls0FW3h6uJm)\n\nComputeMesh aims to provide a decentralized GPU marketplace with programmatic bidding and verifiable compute proofs, intended to lower costs and broaden access to compute resources while enabling agents to offload workloads. The protocol proposes that payments to compute providers be settled using SWARM, with additional rewards distributed via emissions and fees once the protocol activation phase is complete. [\\[1\\]](#cite-id-6XJEQSo9ezFYe7wX) [\\[2\\]](#cite-id-r76RTls0FW3h6uJm)\n\n## Ecosystem (Detailed)\n\nEcosystem participants include swarm deployers who configure and launch agent workflows, GPU providers who supply compute to the network, validators who stake and attest to results, and developers who create templates and integrations and may receive revenue shares or grants. The DAO governance community comprises token holders who are expected to vote on parameters and treasury allocations once governance is live. Public artifacts include the website and whitepaper, a GitHub presence, and an execution‑layer dApp endpoint referenced in the documents; the whitepaper positions the opBNB components as active for engagement, with staking and governance slated for activation in a later phase. [\\[1\\]](#cite-id-6XJEQSo9ezFYe7wX) [\\[2\\]](#cite-id-r76RTls0FW3h6uJm)\n\nA market aggregator page records a reported funding total of $3.00M and an Extended Seed round on March 17, 2026; detailed investor identities are not available in the public summary. The LinkedIn company page exists but does not enumerate founders or executives in the supplied materials. [\\[3\\]](#cite-id-YSUdDAbwIzZT9sBY) [\\[4\\]](#cite-id-hKCxgv6QzVRwoZco)\n\n## Architecture (Detailed)\n\n#### Orchestration engine (SwarmCore)\n\nSwarmCore is described to manage agent registration, task lifecycle, and consensus/failover among agents, targeting sub‑50ms orchestration latency for responsive coordination. The whitepaper frames the execution model as compatible with state transitions on opBNB and periodic anchoring to BSC for settlement, positioning SwarmCore as a high‑frequency control plane. [\\[1\\]](#cite-id-6XJEQSo9ezFYe7wX) [\\[2\\]](#cite-id-r76RTls0FW3h6uJm)\n\n#### Decentralized GPU network (ComputeMesh)\n\nComputeMesh is structured as a decentralized marketplace, where providers advertise capabilities and pricing and jobs are allocated via automated bidding. The verification of compute work is intended to rely on cryptographic proofs, augmented in later phases by TEE attestation and zero‑knowledge approaches for ML inference validity. [\\[1\\]](#cite-id-6XJEQSo9ezFYe7wX) [\\[2\\]](#cite-id-r76RTls0FW3h6uJm)\n\n#### Agent messaging (HiveMind)\n\nHiveMind emphasizes low‑latency channels (<10ms claimed) and persistent memory streams that preserve context across agents and tasks, with end‑to‑end encryption. This component underpins swarm coordination where multiple specialized agents exchange intermediate results and state. [\\[1\\]](#cite-id-6XJEQSo9ezFYe7wX) [\\[2\\]](#cite-id-r76RTls0FW3h6uJm)\n\n#### Verification protocol (Proof of Swarm)\n\nThe verification layer proposes validator staking, committee selection mechanisms to scale attestations, and slashing for misbehavior. The whitepaper outlines penalty rates for false attestations, double attestations, downtime, and fabrication of proofs, with distribution of slashed amounts. Over time, the system targets more robust attestation via TEE pipelines and ZKML provers and explores a Proof of Inference model. [\\[2\\]](#cite-id-r76RTls0FW3h6uJm)\n\n#### Developer toolkit (SDKs and integrations)\n\nThe developer stack includes SDKs in multiple languages, integrations with agent frameworks, templates for common workflows, and a planned marketplace. A public GitHub organization serves as a code and documentation hub, though availability of individual modules depends on roadmap progress and audits. [\\[2\\]](#cite-id-r76RTls0FW3h6uJm) [\\[5\\]](#cite-id-UipThJTDlSQ11StV)\n\n## Governance and Legal\n\nThe governance model described in the whitepaper includes a two‑tier structure with parameter and structural votes, defined quorums, a proposal bond, discussion and voting windows, and an execution timelock. A temporary security council with veto power is intended to be time‑limited and phased out as decentralization advances. The site states that governance is under a British Virgin Islands jurisdiction, and roadmap items indicate the activation of on‑chain governance in later phases. [\\[2\\]](#cite-id-r76RTls0FW3h6uJm) [\\[1\\]](#cite-id-6XJEQSo9ezFYe7wX)\n\n## Security Considerations\n\nSecurity elements include staking‑based validator selection, slashing with specified penalties, and an evolving verification stack (TEE and ZKML). The project reports a smart contract audit “in progress” around the end of Phase 01 and contract source verification for certain opBNB deployments. These elements are intended to support accountability and reproducibility of agent outputs and to mitigate dishonest behavior. [\\[1\\]](#cite-id-6XJEQSo9ezFYe7wX) [\\[2\\]](#cite-id-r76RTls0FW3h6uJm)\n\n## Similar Initiatives and Context\n\nWithin the broader multi‑agent and decentralized compute landscape, the design emphasizes a combined orchestration, compute, messaging, and verification stack, with token‑based incentives and on‑chain governance. The materials frame future‑phase research toward consensus‑oriented inference validation (Proof of Inference) and cryptographic verification of model outputs (ZKML), which align with emerging efforts in verifiable compute for AI systems. These elements are presented as roadmap items rather than present‑day guarantees. [\\[2\\]](#cite-id-r76RTls0FW3h6uJm) [\\[1\\]](#cite-id-6XJEQSo9ezFYe7wX)\n\n## Notable Statements\n\n* “Early engagement systems (SwarmCore, SwarmBadge and an on‑chain swarmScore points endpoint) are live on opBNB; a canonical BEP‑20 token (SWARM) and staking/governance modules are planned according to the project roadmap.” [\\[2\\]](#cite-id-r76RTls0FW3h6uJm)\n* “Protocol fee mechanics are proposed (3% on agent task execution: 2% burned, 0.5% treasury, 0.5% validators).” [\\[2\\]](#cite-id-r76RTls0FW3h6uJm)\n\n## Data Gaps and Verification Notes\n\nThe provided materials do not include a named founder list, detailed investor identities, or third‑party confirmed partnerships. Several elements—including staking/governance activation, fee burns and emissions, TEE/ZKML verification, and marketplace features—are documented as roadmap items. Market aggregator data reports a funding figure and round date without public investor attribution. Readers seeking independent confirmation of deployments, token distribution, liquidity locks, audits, and exchange listings should consult chain explorers, audit reports, and exchange announcements. [\\[1\\]](#cite-id-6XJEQSo9ezFYe7wX) [\\[3\\]](#cite-id-YSUdDAbwIzZT9sBY)","summary":"SwarmBase is a BNB Chain protocol that coordinates, verifies, and scales autonomous AI agent swarms, providing orchestration, decentralized compute, messaging, verification, and a planned SWARM token for staking, fees, and governance.","images":[{"id":"QmVqyGCMvhd3tfnnSe3vsa5c8oRP1YZPpWgQdk2sXzs131","type":"image/jpeg, image/png"}],"categories":[{"id":"organizations","title":"organizations"}],"tags":[{"id":"AI"},{"id":"Protocols"},{"id":"Organizations"},{"id":"Developers"},{"id":"BinanceSmartChain"}],"media":[],"metadata":[{"id":"references","value":"[\n  {\n    \"id\": \"6XJEQSo9ezFYe7wX\",\n    \"url\": \"http://swarmbase.io/\",\n    \"description\": \"Project site overview\",\n    \"timestamp\": 1778046622229\n  },\n  {\n    \"id\": \"r76RTls0FW3h6uJm\",\n    \"url\": \"http://swarmbase.io/whitepaper\",\n    \"description\": \"Whitepaper introduction\",\n    \"timestamp\": 1778046622229\n  },\n  {\n    \"id\": \"YSUdDAbwIzZT9sBY\",\n    \"url\": \"https://cryptorank.io/price/swarm-base\",\n    \"description\": \"CryptoRank listing\",\n    \"timestamp\": 1778046622229\n  },\n  {\n    \"id\": \"hKCxgv6QzVRwoZco\",\n    \"url\": \"https://www.linkedin.com/company/swarmbase-ai\",\n    \"description\": \"LinkedIn company page\",\n    \"timestamp\": 1778046622229\n  },\n  {\n    \"id\": \"UipThJTDlSQ11StV\",\n    \"url\": \"https://github.com/swarmbase/swarmbase\",\n    \"description\": \"GitHub organization\",\n    \"timestamp\": 1778046622229\n  }\n]"},{"id":"email_url","value":"mailto:legal@swarmbase.io"},{"id":"website","value":"https://swarmbase.io/"},{"id":"references","value":"https://swarmbase.io/whitepaper"},{"id":"github_profile","value":"https://github.com/swarmbase/swarmbase"},{"id":"linkedin_profile","value":"https://www.linkedin.com/company/swarmbase-ai"},{"id":"twitter_profile","value":"https://x.com/SwarmBase"},{"id":"commit-message","value":"\"Added Swarmbase overview and protocol details\""}],"events":[{"id":"1cbf32b6-13ee-4003-a39b-85e8e342dcf8","date":"2026-04","title":"SwarmCore and SwarmBadge live on opBNB","type":"DEFAULT","description":"Project site marks Phase 01 complete; core modules deployed and source-verified on opBNBscan (project claim).","link":"http://swarmbase.io/","continent":null,"country":null},{"id":"41833675-9e31-4b1c-987f-ec131573d369","date":"2026-03","title":"Technical whitepaper published","type":"DEFAULT","description":"Initial protocol whitepaper released outlining dual-chain design and tokenomics.","link":"http://swarmbase.io/whitepaper","continent":null,"country":null},{"id":"98fb2f99-5b13-44f1-a951-bd3f0597cdbd","date":"2026-03","title":"$3M extended seed reported","type":"DEFAULT","description":"CryptoRank lists SwarmBase total funds raised of $3.00M; latest round Extended Seed on Mar 17, 2026.","link":"https://cryptorank.io/price/swarm-base","continent":null,"country":null},{"id":"b09402db-c997-4805-89e5-364bd52f849c","date":"2026-06","title":"Token launch phase active","type":"DEFAULT","description":"Roadmap Phase 02 indicates $SWARM token launch on BSC, liquidity setup, and airdrop (project statements).","link":"http://swarmbase.io/","continent":null,"country":null},{"id":"3d2949f2-6a17-41b5-a83a-5831623552e1","date":"2026-04","title":"Core endpoints and points live","type":"DEFAULT","description":"core.swarmbase.io and core.swarmbase.io/points active per project site.","link":"http://core.swarmbase.io/","continent":null,"country":null},{"date":"2026-05-06","title":"SwarmBase Founded","type":"CREATED","description":"SwarmBase was founded and officially launched.","id":"5c7facd4-a19e-4b98-930a-23b91e78ddf7"}],"user":{"id":"0x8af7a19a26d8fbc48defb35aefb15ec8c407f889"},"author":{"id":"0x8af7a19a26d8fbc48defb35aefb15ec8c407f889"},"operator":{"id":"0x0b980734b9ade36D9Cd87Ad5D123b9127f113C63"},"language":"en","version":1,"linkedWikis":{"blockchains":["binance-smart-chain"],"founders":["anon"],"speakers":[]}}