Introducing the GTBS Chain project.
GTBS Chain is a high-performance Layer-1 blockchain designed to merge the power of decentralized finance, real-world utilities, multi-virtual machine deployment, and instantly scalable infrastructure. Built on a modified Cosmos SDK with GTBS-enhanced middleware, the chain introduces MultiVM, enabling EVM, Cosmos-VM, and WASM smart contracts to coexist seamlessly in a unified execution layer.
GTBS Chain provides 5-second finality, low latency, and high throughput, powered by a Delegated Proof-of-Stake (dPoS) consensus mechanism operated by a decentralized network of 20 Validators and 20 Delegates.
The GTBS ecosystem expands beyond blockchain infrastructure — encompassing a crypto exchange, OTT, NFT marketplace, gaming ecosystem, cloud platform, and digital apps — all contributing to a cohesive decentralized digital economy.
INTRODUCING MultiVM
The World's First DPoS-Powered MultiVM
MultiVM (Global Virtual Machine) is a new class of smart contract engine designed to outperform EVM environments with faster execution, lower costs, and high throughput for large-scale apps.
MultiVM (Global Virtual Machine) is a new class of smart contract engine designed to outperform EVM environments with faster execution, lower costs, and high throughput for large-scale apps.
KEY HIGHLIGHTS
Designed for Performance
One Ecosystem.
Unlimited Possibilities.
THE GTBS NETWORK ARCHITECTURE
Decentralized Network
Decentralized Network
Decentralized Network
GTBS operates a decentralized multi-layer network:
Layer 1 — GTBS Chain (Mainnet)
Layer 2 (future) — Rollups & sidechains
Layer 3 — App-level clusters for gaming, OTT, NFTs
Every node validates cryptographically signed transactions, maintains consensus, and contributes to block production.
GTBS operates a decentralized multi-layer network:
Layer 1 — GTBS Chain (Mainnet)
Layer 2 (future) — Rollups & sidechains
Layer 3 — App-level clusters for gaming, OTT, NFTs Every node validates cryptographically signed transactions, maintains consensus, and contributes to block production.
DPoS Consensus Mechanism
DPoS (Delegated Proof of Stake) is a blockchain consensus algorithm where network users vote to elect delegates (also called witnesses or block producers) who are then responsible for validating ransactions and creating new blocks.
This approach improves on traditional Proof of Stake by increasing scalability and transaction speed, as a smaller, elected group of validators handles block production. The system relies on user participation to vote for these delegates, who then share rewards with their voters.
GTBS uses Delegated Proof of Stake, optimized for:
High transaction throughput
Fast finality (5 seconds)
Low energy consumption
Democratic staking participation
DPoS (Delegated Proof of Stake) is a blockchain consensus algorithm where network users vote to elect delegates (also called witnesses or block producers) who are then responsible for validating ransactions and creating new blocks. This approach improves on traditional Proof of Stake by increasing scalability and transaction speed, as a smaller, elected group of validators handles block production. The system relies on user participation to vote for these delegates, who then share rewards with their voters.
GTBS uses Delegated Proof of Stake, optimized for:
High transaction throughput
Fast finality (5 seconds)
Low energy consumption
Democratic staking participation
How it works
Voting: Users stake their tokens to vote for delegates they trust. They can vote directly or delegate their voting power to another entity.
Delegation: The delegates with the most votes are elected as the active witnesses or block producers.
Block production: These elected delegates are responsible for verifying transactions and creating new blocks in the blockchain.
Rewards: When a delegate successfully produces a block, they receive a reward, which is typically shared with the users who voted for them.
Accountability: Delegates who fail to perform their duties (like missing a block) are not rewarded and risk losing votes from the community.
Voting: Users stake their tokens to vote for delegates they trust. They can vote directly or delegate their voting power to another entity.
Delegation: The delegates with the most votes are elected as the active witnesses or block producers.
Block production: These elected delegates are responsible for verifying transactions and creating new blocks in the blockchain.
Rewards: When a delegate successfully produces a block, they receive a reward, which is typically shared with the users who voted for them.
Accountability: Delegates who fail to perform their duties (like missing a block) are not rewarded and risk losing votes from the community.
Key Characteristics:
20 active validators
20 delegates
Weighted-voting through stake
Slashing for poor performance
Automatic validator rotation
Delegator staking yields proportional rewards
20 active validators
20 delegates
Weighted-voting through stake
Slashing for poor performance
Automatic validator rotation
Delegator staking yields proportional rewards
Resources on GTBS
The GTBS resource framework enables predictable performance and stable dApp execution.
Resources include:
The GTBS resource framework enables predictable performance and stable dApp execution.
Resources include:
Compute Units (CU)
Execution power allocated for smart contracts.
Execution power allocated for smart contracts.
Network Units (NU)
Bandwidth & transmission resource.
Bandwidth & transmission resource.
Storage Units (SU)
Persistent chain-level storage for state and contracts.
GTBS ensures deterministic execution—resources are allocated proportionally based on staked GTBS Coin.
Persistent chain-level storage for state and contracts.
GTBS ensures deterministic execution—resources are allocated proportionally based on staked GTBS Coin.
Decentralized Identities (DeID)
GTBS introduces GTBS DeID, a decentralized identity layer enabling:
Wallet-bound identity
KYC-linked identity (optional)
DID-based login
NFT-linked identities
Identity for dApps, creators, OTT accounts, cloud accounts
Users maintain full control over their identity without relying on centralized servers.
GTBS introduces GTBS DeID, a decentralized identity layer enabling:
Wallet-bound identity
KYC-linked identity (optional)
DID-based login
NFT-linked identities
Identity for dApps, creators, OTT accounts, cloud accounts
Users maintain full control over their identity without relying on centralized servers.
Transactions Per Second (TPS)
GTBS is optimized for high throughput.
Baseline TPS: 8,000–12,000
Peak TPS: Up to 25,000 with batching
Block size: Dynamic
Latency: ~2 seconds
Finality: 5 seconds
GTBS is optimized for high throughput.
Baseline TPS: 8,000–12,000
Peak TPS: Up to 25,000 with batching
Block size: Dynamic
Latency: ~2 seconds
Finality: 5 seconds
Block Production
Blocks are produced every 5 seconds.
Blocks are produced every 5 seconds.
Per-block minting:
9.5129 GTBS minted per block
Resulting in 164,383.56 GTBS/day
9.5129 GTBS minted per block
Resulting in 164,383.56 GTBS/day
Block Producers
Block producers = Active validators.
Roles:
Validate transactions
Run consensus
Propose new blocks
Secure the chain
Participate in governance
Block producers = Active validators.
Roles:
Validate transactions
Run consensus
Propose new blocks
Secure the chain
Participate in governance
Decentralized Governance Model
GTBS uses a decentralized, transparent governance model:
Stakeholders include:
Validators
Delegators
NFT holders
Ecosystem partners
Token holders
Governance covers:
Software upgrades
Parameter changes
Validator additions
Ecosystem funding
Treasury use
Voting weights are stake-based.
GTBS uses a decentralized, transparent governance model:
Stakeholders include:
Validators
Delegators
NFT holders
Ecosystem partners
Token holders
Governance covers:
Software upgrades
Parameter changes
Validator additions
Ecosystem funding
Treasury use
Voting weights are stake-based.
GTBS Consortium Structure
GTBS’s consortium includes:
GTBS Core Team
Independent validators
Technical partners
Ecosystem builders
Community representatives
This ensures:
No single-point control
Transparency
Continued decentralization
GTBS’s consortium includes:
GTBS Core Team
Independent validators
Technical partners
Ecosystem builders
Community representatives
This ensures:
No single-point control
Transparency
Continued decentralization
GTBS Signing Request (GSR)
GSR is GTBS’s version of a signing request protocol similar to XPR’s PSR.
GSR enables:
Wallet-to-dApp authorization
MultiVM transaction signing
Seamless login
Secure smart contract interactions
Off-chain signing compatible with Web3 wallets
GSR standardizes interactions across:
Mobile wallets
Browsers
Exchanges
Cloud services
GSR is GTBS’s version of a signing request protocol similar to XPR’s PSR.
GSR enables:
Wallet-to-dApp authorization
MultiVM transaction signing
Seamless login
Secure smart contract interactions
Off-chain signing compatible with Web3 wallets
GSR standardizes interactions across:
Mobile wallets
Browsers
Exchanges
Cloud services
Final Thoughts
GTBS Chain isn’t positioning itself as the “next big thing.”
It’s quietly building what the blockchain industry has been missing — a system that works in the real world.
Fast. Secure. Interoperable. Future-ready.
That’s the promise of GTBS — and it’s already becoming a reality.
INFORMATION
https://gtbs.live/
https://t.me/GTBSchain
https://x.com/Gtbschain
https://www.youtube.com/@Gtbschain
https://t.me/Tokensfund_io
Forum Username: Mirdette
Forum Profile Link: https://bitcointalk.org/index.php?action=profile;u=3430592
Telegram Username: @elmernos
Participated Campaigns: video / article
wallet: 0x1D321618320487CAd34874ce56b5678DB6553AB2
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