Real-time TPS
Chainspect
Kaspa and Litentry TPS are both coming soon
Soon
Soon
Max TPS (100 blocks)
Chainspect
Kaspa and Litentry max TPS are both coming soon
Soon
Soon
Max Theoretical TPS
Chainspect
Kaspa and Litentry max theoretical TPS are both coming soon
Soon
Soon
New
Total Transactions
Chainspect
Kaspa and Litentry total txns are both coming soon
Soon
Soon
Block Time
Chainspect
Kaspa and Litentry block time are both coming soon
Soon
Soon
Finality
Chainspect
Kaspa and Litentry finality are both coming soon
Soon
Soon
Nakamoto Coefficient
Chainspect
Kaspa and Litentry nakamoto coefficient are both coming soon
Soon
Soon
Active Addresses
Chainspect
Kaspa and Litentry active addresses are both coming soon
Soon
Soon
Governance
Chainspect
Kaspa and Litentry governance are both coming soon
Soon
Soon
Type
Chainspect
Kaspa and Litentry types are both unknown
Soon
Soon
Launch Date
Chainspect
Kaspa and Litentry launch dates are both unknown
Soon
Soon
Other Comparisons
Kaspa Comparisons
Litentry Comparisons
- Litentry vs Acala
- Litentry vs Ajuna Network
- Litentry vs Astar
- Litentry vs Bifrost
- Litentry vs Crust
- Litentry vs Frequency
- Litentry vs Hydration
- Litentry vs Integritee
- Litentry vs Litentry
- Litentry vs Mythos
- Litentry vs Moonbeam
- Litentry vs NeuroWeb
- Litentry vs peaq
- Litentry vs Pendulum
- Litentry vs Phala Network
- Litentry vs Robonomics
- Litentry vs Polkadot
- Litentry vs Zeitgeist
About Blockchains
About Kaspa
Kaspa is the fastest, open-source, decentralized & fully scalable Layer-1 in the world. The world’s first blockDAG – a digital ledger enabling parallel blocks and instant transaction confirmation – built on a robust proof-of-work engine with rapid single-second block intervals.
About Litentry
Litentry is a Decentralized Identity Aggregation protocol across multiple networks. It features a DID indexing mechanism and a Substrate-based credit computation network. The protocol provides a decentralized, interoperable identity aggregation service that mitigates the difficulty of resolving agnostic DID mechanisms.