Overview
Complying with computer network and data security and privacy regulations requires prudent due care practices including proactive cybersecurity posture assessments and network vulnerability testing. NetDiligence® offers cybersecurity assurance services to help businesses and FI’s safeguard their information assets, improve their security stance, reduce regulatory concerns and third party legal liability.

eRisk: cyber threats & liability
Today's sophisticated, highly networked business environments are often porous and expose firms, companies and financial institutions to new and constantly changing 'e-Risk' threats and liability. Trends for losses are increasing in both frequency and the severity. The types of threats or 'e-Perils' include hacking, malicious damage/intentional corruption, denial-of-service attacks and information extortion. Then, there are costly liability actions resulting from unauthorized access to a client’s personal data, computer virus transmission resulting from an un-patched web-server, website-based intellectual infringement activities, employee mistakes and software glitches and outright privacy policy violations. Any of these can lead to class-action lawsuits and tarnished reputations.

With risks growing daily, many IT departments simply do not know where they are most vulnerable; who really has access to their data; or if their network security measures really meet a reasonable 'due care' level of safety. At NetDiligence®, we can answer these questions.

We support and are endorsed by some of the world's largest network liability insurance underwriters in their efforts to cover cyber risks.

NetDiligence® is a cybersecurity assurance services company that assesses and tests network security standards and practices using proprietary methodologies and tools anchored by traditional risk management principals.

Applying best practices, our assessment process balances business operational needs with the essential due care security standards needed to identify, mitigate and eliminate anemic loss prevention processes and most network threat exposures.