Lucas Amorim currently serves as the Applied Research Lead Engineer at Trugard, where he leverages his extensive background in application security and software engineering to drive innovation in the Web3 space. With a keen focus on enhancing security protocols, Lucas has dedicated the past two...
Lucas Amorim currently serves as the Applied Research Lead Engineer at Trugard, where he leverages his extensive background in application security and software engineering to drive innovation in the Web3 space. With a keen focus on enhancing security protocols, Lucas has dedicated the past two years to developing advanced tools that combat fraud and scams associated with smart contracts. His expertise lies in creating sophisticated detectors that analyze both Solidity source code and EVM bytecode, which are crucial for delivering comprehensive security assessments, especially in scenarios where source code may not be available.
Under Lucas's leadership, Trugard has pioneered bytecode-level detection techniques that utilize machine learning algorithms to identify vulnerabilities and provide actionable insights. This innovative approach not only enhances the safety scores of smart contracts but also empowers developers to proactively address potential security threats. His work is instrumental in fostering a more secure Web3 ecosystem, where the integrity of decentralized applications is paramount.
In addition to his technical prowess in cybersecurity, Lucas is well-versed in various programming languages and technologies, including Go, Docker, and microservices architecture. His experience with Linux server administration and messaging systems like RabbitMQ and Kafka further enriches his ability to design scalable and secure applications. As Lucas continues to push the boundaries of security in the Web3 domain, his contributions are shaping the future of decentralized technology, ensuring that it remains resilient against emerging threats.
