Rezilion deploys easily into SDLC and patch management processes to do continuous memory-based validation both of code repository and run-time environments to prioritize and accelerate vulnerability remediation, as well as autonomous workload protection at the production level.
Only about 30-40% of written code actually ever gets loaded into memory - this is often due to constant iterative changes in agile dev cycles or ongoing maintenance of code over the course of time, but it also is just the reality of how developers end up producing an application.
Yet code scanning tools (SAST / DAST / etc) and vulnerability scanners (Rapid7, Tenable, etc) produce 1000s of theoretical vulnerabilities related to the entire codebase - which bogs down the ability for developers to remediate quickly and effectively.
Rezilion compares what ACTUALLY loads into memory with the output of scanning tools to help prioritize the way remediation is done (i.e. instead of remediating 1000 vulnerabilities, you can focus on the 300 that ACTUALLY matter and are exposed).
The platform takes this a step further at run-time by introducing the concept of "Desired State Enforcement" which baselines an application's true memory footprint characteristics and then prevents any unanticipated changes in memory - essentially whitelisting the application's memory behavior to stop any vulnerability exploits.