Chart Mode:
OVERVIEW:
| Time Frame: | 15m | 1h | 4h | 24h | 1W |
|---|---|---|---|---|---|
| Golden Cross: | 22/04/2025 18:15 (UTC) | 18/04/2025 04:00 (UTC) | 24/04/2025 16:00 (UTC) | None | None |
| Death Cross: | None | None | None | 21/02/2025 00:00 (UTC) | 17/10/2022 00:00 (UTC) |
| Signal: | NEUTRAL | BUY | STRONG_BUY | BUY | SELL |
| Change: | %0.395 | %0.593 | %0.197 | %0.197 | %10.446 |
| RSI: | 52.55 | 59.1 | 0.0 | 62.79 | 43.78 |
| RSI DIV.: | %-3.37 | %-1.09 | %-2.69 | %0.13 | %0.62 |
| BB State: | 1.18% above lower band | -1.85% below upper band | -2.0% below upper band | -1.68% below upper band | 175.01% above lower band |
| Pattern: | None | Evening Star (25/04/2025 02:00) |
Engulfing Pattern (24/04/2025 20:00) |
Three Outside Up/Down (23/04/2025 00:00) |
Three Outside Up/Down (31/03/2025 00:00) |
INFO:
| Symbol / Name: |
 CELR / Celer Network
|
|---|---|
| Rank: | 387 |
| Market Cap: | $78.91M |
| Volume(24 hours): | $6.45M |
| Circulating Supply: | 7.78B CELR77.834241069912% |
| Maximum Supply: | 10B CELR |
| Total Supply: | 10B CELR |
| Launch Date: | 2019-03 |
| Website: | https://www.celer.network/# |
| Twitter: | https://twitter.com/CelerNetwork |
| About: |
Celer is a blockchain interoperability
protocol enabling a one-click user experience accessing tokens, DeFi, GameFi, NFTs, governance, and more across multiple chains. Developers can build inter-chain-native Dapps using the Celer Inter-chain Messaging Framework to gain access to efficient liquidity utilization, coherent application logic, and shared states. Users of Celer-enabled dApps will enjoy the benefits of a diverse multi-blockchain ecosystem with the simplicity of a single-transaction UX, all from a single chain. Celer Network was founded in 2018 by a strong team of engineers with incredibly technical and specialized experience. All four co-founders of Celer hold PhDs in Computer Science from universities like MIT and UC Berkely, and all have a work history with high-profile tech companies.Dr. Mo Dong received his Ph.D. from UIUC. He was founding engineer and product manager at Veriflow, working on network formal verification. He is an expert in applying algorithmic game theory to protocol design, and teaches full-stack smart contract courses with hundreds of students graduated.Dr. Junda Liu received his Ph.D. from UC Berkeley. He joined Google in 2011 to build its datacenter networking infrastructure, and then was founding member of Project Fi mobile service since 2014. He was also the Android Tech Lead for carrier services, which run on more than 1.5 billion devices.Dr. Xiaozhou Li received his Ph.D. from Princeton University. His works have been published at premier venues in distributed systems, networking, storage, and data management, and have become core components of Google TensorFlow, Intel DPDK, and Barefoot Deep Insight.Dr. Qingkai Liang received his Ph.D. from MIT. His research focuses on various learning and control problems that arise in networked systems, especially on online learning algorithms in adversarial networks, which have been successfully applied in Raytheon BBN Technologies and Bell Labs. Celer fundamentally changes how multi-blockchain dApps are built and used. Instead of deploying multiple isolated copies of smart contracts on different blockchains, developers can now build inter-chain-native dApps with efficient liquidity utilization, coherent application logic, and shared states. Users of Celer-enabled dApps will enjoy the benefits of a diverse multi-blockchain ecosystem with the simplicity of a single-transaction UX, without complicated manual interactions across multiple blockchains.Celer uses smart contracts that are deployed on each chain paired with the State Guardian Network, a Tendermint-based blockchain, in order to enable seamless multi-blockchain interoperability. To send a message or invoke a smart contract function cross-chain, a user or a dApp will first send their intention as a message with a structured header and arbitrary binary payload to a Message Bus smart contract on the source chain. Then the validator, the State Guardian Network, will first reach a consensus on the existence of such a message, and concurrently generate a stake-weighed multi-signature attestation. This attestation then is relayed to the destination via an Executor subscribing to the message. On the destination chain, the same Message Bus contract exists to check the validity of the message and triggers the corresponding logic associated with the message either immediately or after a timeout.
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