From stolen consumer data to sensitive data leaks, it seems that no one’s data has been safe in recent years. For numerous reasons, like misconfigured storage repositories and unpatched vulnerabilities, this trend is likely to continue. The integration of digital technology into all areas of business has resulted in more of our data being stored on computers and websites targeted by hackers, which has significantly increased the number of data breaches as well as organizations’ vulnerability to malware attacks. For example, the Equifax breach impacted 145 MM consumers, and with more employees working remotely on a wide range of devices, the threat landscape has expanded.
The meteoric rise of the public cloud has compounded this issue, as data security requires new knowledge and skill sets in short supply, often leading to misconfigured and insecure solutions. Companies need to adopt the approach that every piece of data in their possession, on-premises or in the cloud, must be encryp
Every day, companies generate mountains of data that are critical to their business. With that data comes
a clear challenge: How do you protect exabytes of data that's strewn across global data centers,
computer rooms, remote offices, laptops, desktops, and mobile devices, as well as hosted by many
different cloud providers, without choking business agility, employee productivity, and customer
experience? The solution lies not in throwing more technology at the network, but in taking specific steps
to identify malicious actions and respond to them in order to fix the issue, a process known as
An FCW Digital Dialogue
Download this Digital Dialogue from Federal Computer Week to learn how agencies like the General Services Administration and Department of Homeland Security are using the cloud to extend their enterprise and foster innovation.
Published By: HP Inc.
Published Date: Feb 03, 2016
IT decision-makers weigh in
Securing computers and their data against cyber-attacks and malicious applications is imperative in today’s business environments. IT professionals know this. But which methods are they using to secure laptops and desktops, and just how effective are these methods? See what 650 IT decision-makers had to say.
Published By: HP Inc.
Published Date: Feb 03, 2016
Every day an average of 30,000 new websites are identified as distributing malicious code to site visitors. This helped contribute to the 43% of U.S. companies that experienced data breaches in 2014 alone.
But not all dangers to computers and laptops come from malicious code picked up over the Internet. A study by IDC and the National University of Singapore revealed that in 2014, businesses worldwide would spend nearly $500 billion to deal with the problems caused by malware on pirated software.
This whitepaper gives a broad overview of the ways in which Akamai can help organizations bolster the security of their Web-based assets, with capabilities ranging across the application, network, and DNS layers, as well as solutions focused on Distributed Denial of Service (DDoS) mitigation and business continuity.
No one in today’s highly connected world is exempt from security threats like
phishing, ransomware, or denial-of-service (DoS) attacks. Certainly not Google.
Google operates seven services with more than one billion active users
each (including Google Search, YouTube, Maps, and Gmail). We see every
type of attack, bad software, and bad actors—multiple times a day—and
we’re proud of what our people, processes, and technology do to stop them.
Google has published more than 160 academic research papers on
computer security, privacy, and abuse prevention and has privately warned
other software companies of weaknesses discovered in their systems. Within
Google, we enforce a zero-trust security model, which monitors every device
on the internal network.
Published By: Intralinks
Published Date: Apr 13, 2015
The truth is that they can get a lot worse – and no one is immune. Your company’s data has never been at greater risk.
There is no doubt that 2014 was a dire year for many organizations, as they failed to properly protect their computer systems and the data held upon them.
As if it wasn’t bad enough keeping on top of new zero-day vulnerabilities, targeted attacks, and revelations of state-sponsored espionage, users are potentially exposing companies’ most important data by not following best practices and using consumer-grade cloud services that aren’t built with enterprise needs in mind.
An ever more mobile workforce wants to work on their files remotely but may be taking dangerous risks with sensitive corporate data at the same time.
In this white paper, we detail some of the biggest computer security threats of the last year and offer some predictions on what we can expect to see in 2015.
Published By: CheckMarx
Published Date: Apr 03, 2019
We live in an era of digital transformation.
Software is the backbone of this digital
transformation. Mobile, cloud, open
source, Internet of Things, microservices
and AI have made software more
complex. Over 80% of the code in
today’s software applications is open
source. Estimates show that there will
be 30 billion connected IOT devices by
2020. Furthermore, 85% of customer
interactions will be computer managed
by 2020. Software is everywhere. While
software has gotten more complex, timeto-market is the new name of the game
and enterprises can’t risk security slowing
Threat actors increasingly look toward illicit cryptomining as an easy source of income.
Cryptomining is the production of virtual currency, also known as cryptocurrency, such
as Bitcoin and Monero. It comes at the expense of system performance and power
consumption. Moreover, threat actors are infiltrating networks to use their victims’
computer resources to do this work for them. In this white paper, you will learn how to
defend your organization from illicit cryptomining with the Cisco® security portfolio.
Published By: HP Inc.
Published Date: Sep 11, 2018
A point of sale system is unlike any other piece of technology employed by businesses. It is a sophisticated computer system that manages sensitive customer data in a public space, often accessible by a large number of employees, in addition to customers or anyone else in the area. Because of this, it’s a unique target for compromised data. Plus, it’s mission-critical nature means compromised systems can bring a business to a halt, resulting in lost business.
It is estimated that organizations have a one-in-four chance of experiencing a data breach1. Within the business space, it’s estimated that 89 percent of retail data breaches were targeted at point of sale systems, according to the 2018 Verizon Data Breach Report2. At HP, data integrity is of utmost importance, and we have prioritized advanced security in our technology at every step of the design process.
Published By: Webroot
Published Date: Jul 08, 2011
This paper describes the evolution and future of the online threat environment, and outlines the security, economy, performance, and control available to smaller businesses who act now to adopt Security as a Service.
Although more than two-thirds of confidential information is regulated through database management systems, no computer security program offers adequate protection for the databases against the main threats affecting them today. Oracle, the leader in databases technologies, offers security solutions for the protection of all layers of the database.
Published By: Cloudroute
Published Date: Jun 01, 2016
Keep your employees productive on their essential applications and favorite devices, and your company data protected with enterprise mobility solutions. Deliver and support Single sign-on to thousands of popular SaaS applications like Salesforce, Concur, and Workday. Manage iOS, Android, and Windows computers and mobile devices from one platform. And, finally, get enterprise grade security for your organization by identifying threats before they can damage your business.
If your company relies on passwords to prevent unauthorized computer access, or low-tech memory cards (e.g., swipe cards) for facility access, you have security on par with the average 1980s car. Smart credentials — embedded in plastic smartcards, USB tokens or mobile devices — offer companies advanced and versatile user authentication features.
This white paper discusses the advantages of using smart credentials for multifunction access; describes the hardware and software components used in a smart credential environment; and provides questions to ask when searching for a smart credential solution provider.
By now the fundamentals of computer and network security are familiar to almost everyone who interacts with a PC on a regular basis: install antivirus software, choose good passwords and protect them and download and install software updates. Despite these measures, businesses of all sizes continue to suffer security breaches.
Computer networks are built to facilitate the flow of communication, not stop it. Unfortunately, data packets can be manipulated to look normal yet contain an exploit. These techniques evade standard security measures and, in most cases, can deliver a malicious payload without detection. Often, these advanced evasion techniques (AETs) take advantage of rarely used protocol properties in unexpected combinations. Most network security devices are not capable of detecting them. While many pass industry tests with high ratings, those ratings are based on protection against a limited number of threats. The exact number of AETs is unknown, but it is close to hundreds of millions. To defend against AETs, your network security should incorporate seven critical features into your next gen firewall.
One of the biggest challenges to effectively stopping breaches lies in sifting through vast amounts of data to find the proverbial “needle in the haystack” – the subtle clues that indicate an attack is imminent or underway. As modern computer systems generate billions of events daily, the amount of data to analyze can reach petabytes. Compounding the problem, the data is often unstructured, discrete and disconnected. As a result, organizations struggle to determine how individual events may be connected to signal an impending attack.
In this context, detecting attacks is often difficult, and sometimes impossible. This white paper describes how CrowdStrike solved this challenge by building its own graph data model – the CrowdStrike Threat Graph? – to collect and analyze extremely large volumes of security-related data, and ultimately, to stop breaches. This revolutionary approach applies massive graph-based technologies, similar to the ones developed by Facebook and Google, to detect k