High-Performance Chains + Layer 3: The Winning Formula for Scalable On-Chain Derivatives?

Hardcore cryptocurrency believers remain convinced that decentralized money will one day reach a nadir, replacing fiat and traditional infrastructures with a new model that’s more accessible, transparent and accessible than the systems that power global finance today. 

Most of us scoff at the idea, dismissing it as a fanciful dream. While crypto has a clear edge in terms of self-custody and sending money across borders, the Holy Grail of finance has always been out of reach. Blockchain just doesn’t have the ability to support institutional-grade derivatives trading, which remains the backbone of the world’s financial economy. Until now.

The technical demands of high-volume and low-latency derivatives exposed the fundamental limitations of legacy Layer-1 blockchain architectures. But crypto has proven time and again it’s the mother of innovation. The arrival of newer, high-performance L1s like Sei and Monad, combined with robust Layer-3 scaling solutions such as Orbs, delivers the winning formula that allows blockchain to unlock on-chain derivatives at last.  

The Complexity of On-Chain Derivatives

Derivatives refers to more sophisticated trading markets such as futures, options and perpetual contracts, and it places huge demands on traditional blockchains. Unlike simple spot trading, derivatives markets demand rapid updates to margin, constant liquidation checks and instantaneous orderbook matching. Traditional L1s, designed for sequential processing, quickly crumble under this load. 

The first problem is scale. The earliest L1 blockchains couldn’t support anything like the required volume for derivatives, being limited to a handful of transactions per second. Yet a single, high-volume perpetual protocol might generate thousands of TPS during peak periods, creating a mismatch that causes chronic network congestion. 

The second problem is latency. With derivatives, milliseconds matter, and that means transaction validation and finalization must be done in less than a second. But L1s struggle to achieve this latency, resulting in slow execution, slippage and an inability for traders to react quickly. Third, there’s the liquidity issue. For derivatives markets to operate efficiently, extremely deep orderbooks and massive liquidity are vital. Yet this is impossible when DEXs operate in isolation, fragmenting the available liquidity across dozens of protocols. 

Rethinking L1s with parallel processing

Growing awareness of these limitations has led to a new generation of blockchains that aim to boost scalability to the point where they can easily handle derivatives markets. The key innovation involves moving away from sequential processing to parallel execution. 

Sei was one of the earliest pioneers of parallel processing. Instead of completing transactions one after another, it processes them simultaneously, eliminating the fundamental bottleneck of legacy chains. Doing so dramatically enhances Sei’s scalability and lowers its latency, allowing it to achieve the throughput required for complex financial instruments. Its architecture has been purpose-built for DEX platforms and rapid trading applications. 

Monad takes parallelism a step further, aiming to achieve up to 10,000 TPS through a multi-pronged approach. In addition to its parallel execution engine, Monad implements a novel MonadBFT consensus mechanism that separates transaction ordering from execution. This enables validators to agree on transaction sequences before they’re executed, boosting the efficiency of its parallel processing architecture. In addition, it employs a specialized database called MonadDB that’s optimized for asynchronous operations, providing the state management required for high-frequency updates.  

With these innovations, Sei and Monad have gotten much closer to providing the high-speed, low-latency foundation required for on-chain derivatives. To reach the next level, they’ve turned to dedicated Layer-3 infrastructure that’s able to handle complex order types and settlements, provide more capital efficiency and superior risk management. 

Rapid throughput, amplified

Layer-3 protocol Orbs provides application-centric functionality that has become a critical enabler for both Sei and Monad in their quest to support institutional-grade derivatives markets. Its decentralized services function as a crucial middle layer, streamlining the trading experience while retaining the decentralization that’s non-negotiable for blockchain users. 

1: Gryps on Sei

Orbs has integrated its decentralized toolset with Sei via the Gryps protocol to create a more efficient, high-throughput trading venue. Orbs’ L3 services facilitate the necessary complex logic needed for operations such as automated liquidations, risk management and oracle integration. In effect, it allows Sei to offload the resource-intensive calculations from its network to a separate, decentralized layer. Orbs takes care of the rapid updates to margin, liquidation checks and orderbook matching, preserving Sei’s capacity to focus exclusively on the core transaction processing.

2: Atlantis on Monad

The Atlantis integration brings similar capabilities to Monad, allowing it to support rapid-fire on-chain perpetuals with the performance of traditional financial infrastructures. Orbs is like a decentralized coordination layer that manages complex perpetual contract mechanisms such as funding rate calculations and dynamic margin updates, which require reliable, high frequency execution. Combined with Monad’s rapid parallel execution and high throughput, it creates an environment that caters perfectly to the demands of derivatives markets. 

These integrations enable Sei and Monad to achieve their theoretical performance limits by offloading the complexities of derivatives that would otherwise slow them down. Orbs facilitates cross-margin trading and portfolio management without burdening the L1. It automates complex liquidation and settlement processes in a way that’s transparent and secure. Finally, it optimizes order matching and trade settlement while taking care of the required pre- and post-trade computations. 

Moving the global economy on-chain

Legacy blockchains are too cumbersome to support decentralized derivatives trading, but that changes when they adopt specialized infrastructure layers. The days of developers trying to shoehorn complex financial instruments onto general-purpose blockchains are at an end. 

Sei and Monad cracked the scalability challenge with innovative parallel processing techniques and specialized consensus mechanisms, but the peculiarities of derivatives meant this wasn’t enough. However, their synergistic integration with L3s like Orbs allows them to get over the finish line and deliver the volume, security and institutional-grade performance needed, without forsaking decentralization. In effect, Sei, Monad and Orbs have created a blueprint for DeFi to expand beyond retail applications and cater to the multi-trillion-dollar derivatives market that shapes the global economy.