In a market with many blockchain projects, some teams are experimenting with ways to combine established security models with higher-throughput designs. BlockDAG, which the project says is in a token-sale phase and has raised more than $374 million in Batch 29 at $0.0276, describes a technical approach that blends traditional Layer 1 concepts with a directed acyclic graph (DAG) structure. By combining blockchain-style immutability with DAG-style parallel processing, BlockDAG positions its network as a hybrid framework intended to handle higher transaction volumes while aiming to maintain decentralization.
Its dual-consensus design and stated transaction capacity are presented by the project as a foundation for supporting applications across areas such as DeFi and gaming. This overview reviews three elements described in BlockDAG’s materials and how they are intended to support scalability.
Hybrid Blockchain & DAG Structure
BlockDAG’s approach centers on merging two designs that are often discussed separately in the crypto sector. A blockchain typically provides a sequential chain of confirmed blocks, supporting traceability and immutability. A DAG structure can allow multiple blocks to be processed at the same time, which may reduce delays seen in some conventional networks.
In the project’s description, this would enable transactions to be confirmed in parallel while still maintaining an ordered model for finality. The stated goal is to improve scalability while attempting to avoid trade-offs commonly associated with Layer 1 networks, such as balancing speed, decentralization, and security.
The project also frames the design as a way to improve resilience. With multiple confirmation paths operating simultaneously, the network is intended to remain usable if some nodes face latency or connectivity issues, and to reduce congestion risk during periods of higher usage. These properties are often cited as relevant for use cases like gaming, payments, or DeFi protocols, though real-world performance can vary by implementation and network conditions.
Overall, the hybrid design is presented as an attempt to address a common challenge in blockchain adoption: processing higher transaction volumes while operating as a decentralized network.
Dual Consensus System: Proof-of-Engagement & Proof-of-Work
BlockDAG also describes a dual-consensus approach that combines Proof-of-Engagement (PoE) with Proof-of-Work (PoW). The project says the intent is to support network security while allowing different types of participants to contribute.
According to the project, Proof-of-Engagement is tied to the X1 mobile mining app and is designed to allow users to participate without specialized equipment through routine, lightweight activity. The project describes this as a way to broaden participation compared with traditional PoW setups that can have higher costs or technical requirements.
Proof-of-Work, in the project’s materials, supports the X Series hardware miners (such as the X10, X30, and X100) and is described as providing the computational component used to validate transactions and maintain the ledger.
Running both systems in parallel is presented as a way to balance accessibility and security while aiming to preserve decentralization. As with any new network design, how these trade-offs work in practice depends on adoption, incentives, and on-chain conditions.
Speed & Scalability Capabilities
Throughput is a common benchmark in blockchain discussions, and BlockDAG states that its architecture is designed to process between 2,000 and 15,000 transactions per second (TPS). These figures are project-reported and may differ from results observed under real-world usage, depending on network configuration and test conditions.
If achieved, higher throughput can be relevant for applications that require frequent updates or quick settlement, including trading interfaces, gaming, and multi-party recordkeeping. However, application performance also depends on factors such as fees, latency, and the behavior of smart contracts and off-chain infrastructure.
The project says this throughput is intended to be reached without centralizing validation or weakening security assumptions, by relying on the hybrid blockchain/DAG structure alongside the dual-consensus model to enable parallel processing while maintaining ordering and finality.
BlockDAG also presents its scalability as a way to handle periods of increased demand without major slowdowns. Whether those conditions occur depends on factors such as user growth, application activity, and the network’s operational readiness.
Closing Thoughts
BlockDAG’s project materials highlight a token sale reported at more than $374 million in Batch 29 at $0.0276, alongside an architecture that combines a blockchain-style structure with DAG-style parallel processing. The project also describes a dual-consensus model that includes both mobile participation and Proof-of-Work mining hardware, and it reports a target throughput range of 2,000 to 15,000 TPS. As with other early-stage networks, the significance of these design choices will depend on implementation details, security, and real-world usage over time.
Project website (for reference): https://blockdag.network
Telegram (project channel, for reference): https://t.me/blockDAGnetworkOfficial
This article contains information about a cryptocurrency token sale. This outlet is not affiliated with the project mentioned. This article is for informational purposes only and does not constitute financial or investment advice.
