With Trump's return to the presidency, Bitcoin recently experienced a massive surge, hitting new all-time highs and getting closer to the $100,000 mark. Ethereum also broke past $3,700, and other cryptocurrencies followed suit with explosive growth. The crypto market is now in the midst of a booming bull run. Notably, two blockchain giants have been making waves in the market. ADA (Cardano) saw its market cap double in just 17 days, breaking the $1 mark and making headlines with its remarkable performance. Additionally, ICP (Internet Computer) has also been performing well, with its market cap doubling since its low point in November. Once considered a top-tier project with high expectations, ICP had fallen from grace but is now making a strong comeback. Will it be able to reclaim its former glory and reach new heights?
ADA (Cardano) designed to be the 'Internet of Blockchains,' enabling seamless interoperability between different blockchains. It is the first blockchain platform based on peer-reviewed academic research."
ADA (Cardano) uses Proof of Stake, which is more energy-efficient than Proof of Work, consuming less power. It can handle transactions off-chain and support up to millions of transactions per second (TPS), addressing the scalability issues of traditional blockchains.
ICP(Internet Computer) aims to create a decentralized internet computing platform where all applications and data can run fully on-chain.
ICP(Internet Computer) uses innovative Chain Key technology for decentralized network key management. It employs a high-throughput, low-latency consensus mechanism and can dynamically scale network size and performance by adding nodes, supporting unlimited users and transaction volumes.
Feature | ADA (Cardano) | ICP (Internet Computer) |
Purpose | Creates a decentralized and scalable blockchain platform for smart contracts, decentralized applications (dApps), and other blockchain-based solutions. | Creates a decentralized internet where all services and data can be hosted on a blockchain, making the internet more secure and efficient. |
Consensus Mechanism | Uses a Proof of Stake (PoS) consensus mechanism, which is more energy-efficient and scalable. | Uses a unique consensus mechanism called Chain Key Cryptography, which is designed for high throughput and low latency. |
Ecosystem Strengths | Supports smart contracts, decentralized finance (DeFi), and non-fungible tokens (NFTs). | All services and data can be hosted on the blockchain,Utilizes a decentralized autonomous organization (DAO) called the Network Nervous System (NNS) for governance. |
Use cases | Supports a wide range of use cases including smart contracts, decentralized finance (DeFi), and non-fungible tokens (NFTs). | Focuses on creating a decentralized internet, hosting websites, enterprise IT systems, and other internet services on the blockchain. |
Scalability | Uses a layered architecture to improve scalability and interoperability with other blockchains. | Designed to be infinitely scalable by distributing computation and storage across a network of data centers. |
Scalability
ADA: Cardano uses a layered approach with the Ouroboros consensus protocol and it’s developing Hydra. a layer-2 scaling solution that can theoretically increase the network’s transaction throughput by orders of magnitude.
ICP: ICP employs Chain Key Cryptography and a decentralized network of subnets to achieve scalability. This allows for horizontal scaling by adding new subnets, supporting an unlimited number of canisters (smart contracts).
Transaction Speed
Cardano's Ouroboros proof-of-stake (PoS) consensus mechanism ensures efficient transaction processing. While it aims for higher throughput, it balances speed with security and decentralization2.
ICP is optimized for low-latency, high-throughput applications, and aims to enable real-time execution of smart contracts with minimal delays. Its Chain Key Technology reduces the time needed to finalize transactions.
Comparation:
ICP has a more immediate and aggressive approach to scalability, with subnets and Chain Key Technology allowing for better performance as the network grows. Cardano is making steady progress with Hydra but still relies more on future updates for scalability.
Feature | ADA (Cardano) | ICP (Internet Computer) |
Scalability | Scales with Hydra heads (potentially millions of TPS). | Dynamically scalable by adding more nodes/canisters. |
Transaction Speed | 20-30 seconds for confirmation; 250 TPS (mainnet). | 1 second per transaction; thousands of TPS (real-world). |
Strengths | Focus on Layer 2 solutions and formal verification. | Optimized for real-time applications and high throughput. |
Challenges | Hydra adoption and scaling need time to mature. | Requires continuous expansion of node infrastructure. |
Before discussing the future prospects and long-term potential of ADA (Cardano) and ICP (Internet Computer), it would be helpful to first gain a brief understanding of their current situation in 2024. This will provide a more intuitive foundation for exploring their future.
ADA(Cardano)
In 2024, Hydra will be gradually deployed, with Hydra Heads being optimized for specific use cases, including DeFi, NFTs, and high-throughput applications. As Hydra's implementation progresses, it will bring millions of transactions per second (TPS) to Cardano, enabling it to handle large-scale applications that were previously difficult for the network.
Except Hydra. ADA has also introduced Ouroboros Genesis, an upgraded version of the Ouroboros consensus protocol. It enhances the ability to handle higher transaction volumes without compromising security or decentralization.
Network updates:ADA will undergo a series of upgrades in 2024, primarily increasing block size and optimizing the smart contract platform, Plutus. These improvements aim to ensure the platform remains fast, secure, and sustainable for large-scale applications.
ICP(Internet computer)
ICP boasts an innovative consensus protocol, Threshold Relay, and Chain Key Technology, enabling it to process transactions at web speed.
ICP enables the creation of decentralized "canisters", which are containers for smart contracts that can execute directly on the Internet Computer without relying on traditional cloud infrastructure.
Long-Term Potential
ADA(Cardano)
As Hydra and other scalability improvements come online, Cardano could see a rapid increase in decentralized finance (DeFi) applications and users, tapping into the global shift towards digital finance.
With ongoing improvements to developer tools, Cardano’s dApp ecosystem should grow, attracting more developers looking for a scalable and secure platform for blockchain applications.
ICP(Internet computer)
ICP's ability to process transactions at web speed and support decentralized apps without relying on traditional cloud services is a huge advantage in terms of scalability. This sets ICP apart from other blockchains, as it enables real-time decentralized apps (dApps) and could potentially serve as the backbone for decentralized web services.
ICP has the potential to revolutionize web development by allowing developers to build directly on the blockchain. This could attract a wide range of developers, particularly those from the web development community.
ADA (Cardano) has strong long-term potential due to its robust infrastructure, focus on scalability and governance, and growing developer and enterprise ecosystem. The platform’s gradual adoption of DeFi, smart contracts, and sustainable energy solutions positions it for sustained growth, especially in emerging markets.
ICP (Internet Computer) has a unique proposition with its vision of a decentralized internet. Its success will largely depend on its ability to attract developers to build decentralized applications that can run on the blockchain at web speed. If it succeeds, ICP could see explosive growth in the next 5–10 years.
Both ADA and ICP are promising, but their paths to growth and adoption will be different. ADA is building on established concepts, while ICP is attempting to pioneer new territory with the decentralized internet. Time will tell which project better captures the future of blockchain technology.
Cardano (ADA) has a fixed supply of 45 billion tokens, which means no more than 45 billion ADA will ever be created. This fixed supply is designed to ensure scarcity, which can potentially enhance the value of ADA over time as demand increases. This mechanism helps to provide stability and predictability within the Cardano ecosystem.
Internet Computer (ICP) employs an adaptive tokenomics model that adjusts based on network participation. The system can increase or decrease token rewards to balance the network’s needs. The model encourages active participation by rewarding users, developers, and node operators proportionally to their contributions to the network.
In summary, while both Ouroboros and Chain Key Cryptography prioritize security and decentralization, Ouroboros does so through a PoS mechanism with staking, whereas Chain Key Cryptography focuses on decentralized identity and secure communication without additional trust assumptions.
ADA(Cardano)
The Alonzo upgrade enabled Cardano to implement smart contracts via Plutus, Cardano's smart contract platform. This development aimed to bring decentralized applications (dApps) and decentralized finance (DeFi) to the Cardano ecosystem, positioning it as a competitor to Ethereum.
The Goguen upgrade, which included the multi-asset ledger, enables users to create and transfer custom tokens without needing smart contracts. This gives Cardano a high degree of flexibility, enabling use cases beyond ADA, like NFTs and stablecoins.
A layer-2 solution that aims to improve scalability. Hydra promises to dramatically increase Cardano's transaction throughput by creating parallel chains, allowing for better performance during peak usage.
Projects like SundaeSwap and Minswap are pushing the DeFi sector forward. Cardano is gradually seeing more DApp developers onboard as its ecosystem matures.
ICP (Internet Computer)
Canisters are one of the core technologies of ICP. They are the building blocks for decentralized applications (dApps) on the platform. Canisters can store and execute code, offering functions similar to traditional cloud services, while remaining fully decentralized.
ICP offers a decentralized cloud computing platform that can replace traditional cloud service providers such as AWS, Google Cloud, and Microsoft Azure.
ICP has made significant progress in promoting the decentralized internet (Web3). ICP allows developers to directly host websites and applications on the blockchain, Applications and websites hosted on the ICP network are fully decentralized, avoiding reliance on traditional web servers and cloud services, ensuring content independence and data sovereignty.
ICP has also made significant strides in the decentralized marketplace and NFT (Non-Fungible Token) space. ICP supports the creation, trading, and storage of NFTs, providing a decentralized solution that avoids issues such as censorship and control found in centralized platforms like OpenSea.
In the past five years, ADA's trajectory has resembled a roller coaster ride, climbing from lows to historic highs and then plummeting back to the bottom. At the end of 2020, ADA experienced an upward trend, reaching an all-time high in August 2021 before entering a long period of sideways movement that lasted for two years.
ICP was listed in May 2021 and unexpectedly peaked on its first day, reaching a high of $2,831.02 USDT. Since then, it has been on a downward trend, hitting an all-time low of $2.287 USDT on September 22, 2023—over 99% lower than its peak.
However, as the cryptocurrency market boomed in November, both ADA and ICP rose along with it. ADA's market cap has tripled from its bottom, while ICP's market cap has doubled from its previous low.
ADA(Cardano)
ADA: Cardano’s approach to security is centered around formal verification and scientific rigor, making it one of the most robust security-focused blockchains. It emphasizes decentralization, which also enhances its resistance to network-level attacks.
Cardano places a heavy emphasis on formal verification of its smart contracts and protocols. The Plutus smart contract platform uses formal methods to ensure that smart contracts behave as intended.
Cardano is designed to achieve high decentralization through its staking model, which makes it more resistant to certain types of attacks like 51% attacks.
Cardano has a peer-reviewed research process and undergoes regular academic audits for new updates and protocols. This rigorous scrutiny aims to ensure the system remains secure and scalable.
ICP (Internet Computer)
ICP uses Chain Key Technology which helps scale the blockchain by enabling different chains to interact seamlessly. It also integrates cryptographic signatures and guarantees the security of the network.
ICP uses a Threshold Relay consensus mechanism, which combines randomness with threshold cryptography to secure its network. This protocol allows nodes to verify blocks of data without requiring every node to see every transaction, thereby improving scalability and security.
ICP’s canisters (smart contract containers) are unique in that they allow for autonomous execution with secure execution environments. The execution is also isolated to protect against potential exploits or bugs.
Feature | ADA (Cardano) | ICP (Internet Computer) |
Security Model | Multi-layered security model including peer-reviewed development, secure wallets, two-factor authentication, biometric authentication, blockchain technology, and regular security audits. | Uses chain key cryptography, tamper-proof canisters, decentralized network with dedicated hardware, and sophisticated mathematical frameworks to protect against digital threats. |
Data Storage | Secure blockchain technology for data storage and transactions. | Canister software for secure, tamper-proof data storage and computation. |
Attack Resistance | Strong resistance to 51% attacks and network-level attacks due to high decentralization and formal proof mechanisms. | Resistant to Sybil attacks due to its consensus model and Chain Key Technology, though the centralized governance could be a potential point of failure. |
Network Management | Regular academic audits and peer reviews ensure ongoing security updates and improvements. | NNS manages security and network updates, though centralized in decision-making. |
Formal Verification | Strong emphasis on formal verification of smart contracts using Plutus to ensure correctness and safety before deployment. | Smart contracts executed in canisters, though not as formalized as Cardano’s verification process, uses cryptographic techniques to secure execution environments. |
Cross-Chain Security | Cross-chain interoperability via sidechains and other bridges but with potential security risks in the future. | Inter-Blockchain Communication (IBC) allows for secure interaction between different blockchains, but cross-chain vulnerabilities may arise. |
Overall, both ADA and ICP have their strengths and weaknesses. They both aim for decentralization to avoid control by a single entity. Although their chosen paths are different, they are both striving to advance blockchain technology toward greater security, scalability, and decentralization.
Strengths
ADA(Cardano)
ADA(Cardano):ADA approach to security through formal verification of smart contracts and consensus protocols (like Ouroboros PoS) is one of its strongest points. The formal methods reduce the risk of bugs and vulnerabilities, providing a higher level of mathematical security.
Compared to Proof of Work (PoW), the Proof of Stake (PoS) consensus mechanism offers greater scalability and energy efficiency. Its rapid transaction processing capabilities and low energy consumption are among its main advantages. Additionally, it achieves high decentralization through the staking pool model, making it more resilient to risks such as 51% attacks.
ADA has been growing rapidly, especially after the Alonzo upgrade that introduced smart contracts. The ecosystem now includes DeFi projects, NFTs, and decentralized applications (dApps).
ICP (Internet Computer)
ICP enables developers to create software that runs entirely on-chain without the need for traditional cloud services. This approach to decentralized cloud computing is revolutionary.
ICP uses Chain Key Technology, allowing for high throughput and internet-scale performance. The protocol can scale efficiently, with each transaction validated without requiring every node to process the transaction, leading to improved speed and scalability.
The NNS allows decentralized governance where users can propose and vote on changes to the protocol, and developers can get funding for their projects. This enables dynamic, decentralized control of the network.
Weaknesses:
ADA(Cardano)
While Cardano’s approach to smart contracts through Plutus (its smart contract platform) is secure and well-structured, it has been slower to gain adoption compared to Ethereum and other smart contract platforms. The developer ecosystem is still growing.
Cardano’s dApp ecosystem is still not as large or as mature as Ethereum or even Binance Smart Chain. This is largely due to the platform’s relatively late entry into the smart contract space.
ICP (Internet Computer)
ICP’s developer ecosystem is still in its early stages. While the platform promises a powerful solution for Web3 applications, the ecosystem of dApps and developers is not as large or as mature as Ethereum, Cardano, or even newer platforms like Solana.
While the NNS provides a decentralized governance structure, the initial control over the network was highly centralized. The IC Foundation holds significant control over the protocol’s direction, which can be seen as a centralization risk.
If you prioritize formal verification, provable security, and a solid academic foundation for blockchain development, Cardano stands out due to its mathematically proven protocols and formal methods. If you're interested in the next generation of decentralized computing with full web hosting and Web3 applications, ICP’s vision of turning the entire internet into a decentralized ecosystem is revolutionary.