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On average, it takes 170 days to detect an advanced attack, 39 days to contain it and 43 days to remediate it, according to a. Security threats are pervasive and constantly evolving. Today’s cybercriminals are smarter, bolder and more ambitious than in years past. The IT landscape is changing to accommodate mobility, cloud environments and the movement of massive amounts of data. Security has become the top priority for most organizations. It can be hard to maintain control when a strong security strategy depends on so many factors.
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Deploying next-generation endpoint security can help your organizations combat modern threats — as long as you first review your environment and upgrade from traditional anti-virus products. Organizations Face Major Internet Security Challenges Today, endpoint security represents the front line in the fight against cyberattacks. Breaches have become commonplace among enterprises, and user endpoints and servers are targeted more than any other type of asset. That is because the data is in the endpoints. The effects from these security breaches can be devastating, causing a company to lose revenue, market reputation and market competitiveness. Unfortunately, inadequate endpoint security leaves the doors wide open to a variety of attacker techniques and tools, including malware, software exploits and social engineering.
Now, more than ever, it’s critical to have the right endpoint protection in place. Firewalls Offer Inadequate Protection Against Threats Networks require a multilayered security approach encompassing both hardware and software — no single solution will protect against the variety of threats that organizations face. For instance, although firewalls are common defenses for many IT infrastructures, cyberattackers are far more sophisticated than they were in the past. Firewalls alone can no longer provide effective protection for the following reasons: • Firewalls protect only on-premises users: Many users work remotely from home offices or coffee shops, increasing their exposure to security breaches. • East-west traffic on the LAN isn’t governed by most firewalls: A firewall sees only what’s going through it.
Some malware moves laterally once it manages to break in. • operate outside of firewalls: Firewalls have little to no control over personal devices that are connected to your network. 3d visualizer portfolio pdf template. • Cloud servers move data beyond the firewall: Deploying virtual firewall appliances on the cloud is possible, but how do you control malware injected over an IPSec VPN tunnel that the firewall doesn’t see?
• Firewalls cannot protect stolen laptops and mobile devices: Once again, firewalls have no control once computers are in the wrong hands. You need security protection placed as close to the user or asset as possible.
Think of the Secret Service agents protecting the president at an event. Although layers of security have been set around the venue, having protection placed directly around the president is crucial and most effective. Next-Gen Endpoint Security Eclipses Legacy Anti-Virus Software A traditional anti-virus solution can detect only the malware it recognizes. However, if a threat is not known, or if an attack doesn’t use malware, traditional anti-virus solutions will usually fail to provide protection. This is why has increased so rapidly in recent years. This approach takes a system-centric view of endpoint security, examining every process, on every endpoint, to detect malware and block the malicious tools, tactics and procedures on which attackers rely. The key techniques that next-gen endpoint security products typically employ include: • Signature, live-update, computer scan and host-based IPS.
Next-gen products still use signature and hash matching to determine whether malicious files are detected, simply because these techniques provide the fastest detection for known malware. Once the easy stuff is eliminated, we need to work on more sophisticated threats. • Behavioral analysis: This approach can identify malicious files based on how they deviate from normal behavior. For example, a malicious Microsoft Excel document may try to modify registry keys on a Windows computer. • Threat intelligence: This is the data collected from machine learning and artificial intelligence algorithms that determine whether a file is malicious based on millions of other file samples.