2024 will be the year in which traditional asset management transforms. Institutional investments in blockchain technology have been anticipated for years, but this is about to become a reality.
Key capabilities, most notably the development of the zero-knowledge Ethereum Virtual Machine, or zkEVM, have the potential to enable tokenization of real-world assets and pave the way for a fundamental transformation of the global financial system.
Institutions need mainnet-level security, infinite scalability, and massive liquidity potential. With advances in developer tools and mathematically proven security measures, the necessary components are finally being put together to make this promise a reality.
This, in turn, will lead to mainstream adoption of blockchain.
Transparency through chain abstraction
Capable of executing smart contract transactions within a zero-proof environment, the zkEVM has firmly established itself in the blockchain infrastructure. Now institutional investors can benefit from a proven ecosystem of Ethereum-based blockchains, with its robust security guarantees, decentralization and transactional transparency, at much lower costs, fast settlement times and with potentially unlimited scaling capacity.
The picture of success for Web3 is creating a “chain of chains,” essentially a seamless user experience across the entire ecosystem. Part of the liquidity advantage comes from the ability to integrate various applications ranging from gaming, DeFi and authorized institutional platforms. Each of these requires custom blockchain architectures with varying levels of permission, privacy, cost, security and incentive designs.
With the technical decisions about chain design removed, developers can build on a secure infrastructure and focus on optimizing for a single use case. They are able to enhance the capabilities of the application layer so that all blockchain interactions take place transparently. The endgame means a broader blockchain ecosystem in which institutional investors gain access to the high liquidity of the entire Ethereum ecosystem plus the security benefits of zero-knowledge transactions.
Liquidity aggregation at an institutional scale
The zkEVM facilitates tremendous liquidity potential by enabling near-instantaneous settlements, enabling seamless transactions and liquidity transfers across chains. A user can draw liquidity from one chain and seamlessly execute a decentralized exchange transaction (DEX) on another chain.
Institutional scale requires institutional levels of liquidity. In the near future, we will see not only tokenization products appear in the ecosystem, but also more advanced financial instruments such as derivatives. Enabling this to happen will require major technological innovations, largely driven by the aggregation of all the liquidity in the space within a single layer capable of managing these resources efficiently.
Looking to the future
Blockchain technology provides 24-hour trading and access to previously inaccessible assets and vehicles, but institutions require adaptable chains, and integration with legacy systems poses significant challenges. The capabilities of zkEVMs introduce a level of security and integration potential that changes everything.
Most recently Hamilton Lane and Brevan Howard became users of the new real-world asset tokenization platform Libra, developed with the Polygon Chain Development Kit (CDK). Polygon CDK is permissionless software that allows developers to create new chains with varying degrees of decentralization, security and functionality, enabling customizability for developer compliance needs, such as matching users with appropriate financial instruments, be it a hedge fund, collateralized loan or other is. investment product.
As we move forward, the key enablers of the institutional investor ecosystem are improving the developer experience and providing certainty and security, backed by mathematical evidence. This will reduce operational costs and create ways to integrate legacy systems in a way that supports compliance and security requirements.
