As Italy’s businesses grew increasingly vulnerable to the threat of ransomware, data breaches, and other malicious malware attacks, service provider Telecom Italia sought an innovative solution to effectively and efficiently protect the network and data of its business users.
In this case study, you’ll read about how Italy’s largest service provider partnered with Cisco Umbrella to increase value for customers and accelerate their revenues with cloud security.
"A number of obstacles stand between you and a safe network. Your security solution shouldn't be one of them.
Check out our infographic to see six common security pitfalls that put your users, their devices, and your data at risk. By avoiding these common security mistakes, you’ll be protecting your network against today’s threats and beyond.
Today’s security appliances and agents must wait until malware reaches the perimeter or endpoint before they can detect or prevent it. OpenDNS arrests attacks earlier in the kill chain. Enforcing security at the DNS layer prevents a malicious IP connection from ever being established or a malicious file from ever being downloaded. This same DNS layer of network security can contain malware and any compromised system from exfiltrating data. Command & control (C2) callbacks to the attacker’s botnet infrastructure are blocked over any port or protocol. Unlike appliances, the cloud service protects devices both on and off the corporate network. Unlike agents, the DNS layer protects every device connected to the network — even IoT. It is the easiest and fastest layer of security to deploy everywhere.
Users are working off-hours, off-network, and off-VPN. Are you up on all the ways DNS can be used to secure them? If not, maybe it’s time to brush up. More than 91% of malware uses DNS to gain command and control, exfiltrate data, or redirect web traffic. Because DNS is a protocol used by all devices that connect to the internet, security at the DNS layer is critical for achieving the visibility and protection you need for any users accessing the internet. Learn how DNS-layer security can help you block threats before they reach your network or endpoints.
Imperva, an APN Security Competency Partner, can help protect your application workloads on AWS with the Imperva SaaS Web Application Security
platform. The Imperva high-capacity network of globally distributed security services protects websites against all types of DDoS threats, including networklevel Layer 3 and Layer 4 volumetric attacks—such as synchronized (SYN) floods and User Datagram Protocol (UDP) floods—and Layer 7 application-level
attacks (including the OWASP Top 10 threats) that attempt to compromise application resources. Harnessing real data about current threats from a global
customer base, both the Web Application Firewall (WAF) and DDoS protection, incorporate an advanced client classification system that blocks malicious
traffic without interfering with legitimate users. Enterprises can easily create custom security rules in the GUI to enforce their specific security policy. In
addition, this versatile solution supports hybrid environments, allowing you to manage th
Edison has followed the development and use of Cisco’s Application Centric Infrastructure (ACI) over the past five years. Cisco ACI delivers an intent-based networking framework to enable agility in the datacenter. It captures higher-level business and user intent in the form of a policy and translates this intent into the network constructs necessary to dynamically provision the network, security, and infrastructure services.
The Secure Data Center is a place in the network (PIN) where a company centralizes data and performs services for business. Data centers contain hundreds to thousands of physical and virtual servers that are segmented by applications, zones, and other methods. This guide addresses data center business flows and the security used to defend them. The Secure Data Center is one of the six places in the network within SAFE. SAFE is a holistic approach in which Secure PINs model the physical infrastructure and Secure Domains represent the operational aspects of a network.
Cisco ACI, the industry-leading software-defined networking solution, facilitates application agility and data center automation. With ACI Anywhere, enable scalable multicloud networks with a consistent policy model, and gain the flexibility to move applications seamlessly to any location or any cloud while maintaining security and high availability.
How secure is your company’s network?
The rising frequency of employee network access is fast becoming one of the most prevalent and unmanaged risks to the protection of critical enterprise data. When coupled with increasingly sophisticated cyber-attacks, the possibility of a security breach of enterprise networks becomes more likely.
As one of the world’s leading location platforms in 2018, HERE shares insights and solutions to preventing identity fraud. Discover the latest facts and statistics. Learn more about the use-case of location verification when logging into your company’s network.
Download the infographic from HERE Technologies.
Published By: Oracle CX
Published Date: Oct 20, 2017
Security has become top of mind for CIOs, and CEOs. Encryption at rest is a piece of the solution, but not a big piece. Encryption over the network is another piece, but only a small piece. These and other pieces do not fit together well; they need to unencrypt and reencrypt the data when they move through the layers, leaving clear versions that create complex operational issues to monitor and detect intrusion.
Larger-scale high-value applications requiring high security often use Oracle middleware, including Java and Oracle database. Traditional security models give the data to the processors to encrypt and unencrypt, often many times. The overhead is large, and as a result encryption is used sparingly on only a few applications. The risk to enterprises is that they may have created an illusion of security, which in reality is ripe for exploitation.
The modern best-practice security model is an end-to-end encryption architecture. The application deploys application-led encryption s
Published By: Gigamon
Published Date: Oct 19, 2017
Read the Joint Solution Brief Gigamon Improves Security Visibility with Splunk Enterprise to see how to effectively analyze network events for security threats. Benefits include enhanced visibility and deeper, faster security analytics and intelligence based on all machine data (not just security events), among many others. Download now!
Published By: Gigamon
Published Date: Oct 25, 2017
Read the Joint Solution Brief Accelerate Threat Detection and Response to learn how Gigamon helps Splunk Enterprise users effectively analyze and remediate network security threats. Benefits include enhanced visibility and deeper, faster security analytics from precise, targeted network metadata generated from the traffic flowing in your network. Also learn how automation of common security tasks, across the Gigamon platform and third-party security tools, from within the Splunk platform helps increase analyst efficiency and reduce errors.
AWS provides powerful controls to manage the security of software-defined infrastructure and
cloud workloads, including virtual networks for segmentation, DDoS mitigation, data encryption,
and identity and access control. Because AWS enables rapid and elastic scalability, the key
to securing cloud environments is using security automation and orchestration to effectively
implement consistent protection across your AWS environment.
The following eBook will discuss Dome9 best practices for using AWS controls to establish a
strict security posture that addresses your unique business needs, and maintaining consistency
across regions, accounts, and Virtual Private Clouds (VPCs) as your environment grows.
Most organizations are in the midst of some form of digital transformation (DX),
transforming how they bring products and services to the market—and ultimately
deliver value to their customers. But DX initiatives also bring complexity for the
network operations team. With business-critical services distributed across
multiple clouds, this leads to potential performance issues, especially at
Given these realities, it is no wonder that software-defined wide-area network
(SD-WAN) technology is rapidly going mainstream. Unfortunately, SD-WAN is an
example of the paradox of DX: transformative technology can potentially move the
business to the next level, but the expanded attack surface it creates can expose
the organization to significant risk. That is why an SD-WAN deployment, like every
other DX effort, should be accompanied by a security transformation (SX) that
rethinks outdated principles, broadens protection beyond the data center, and
integrates the security archit
Enterprise chief information security officers (CISOs) are seeking ways to leverage existing security
investments to bridge the divide between largely siloed security systems. The focus is on reducing
the number of consoles needed to manage the security infrastructure. Network security vendors have
a significant role to play in bridging the communication gap between these systems. The creation of a
unified defense architecture enables threat data exchange between existing security systems. It helps
automate the process of raising an organization's security posture when a security infrastructure
component detects a threat.
The following questions were posed by Fortinet to Robert Ayoub, program director in IDC's Security
Products program, on behalf of Fortinet's customers.
The cloud is a network of servers housing data, software, and services. Cloud services are commonly accessed via the Internet, instead of locally in a data center. Businesses are increasingly relying on the cloud for cybersecurity for two key reasons: 1. Due to a changing threat landscape, there’s a need for more scale, accuracy, experience, and collective intelligence. These resources are out of reach internally for most organizations. 2. There are fundamental limits with on-premises hardware mitigation appliances and enterprise data centers for Distributed Denial of Service (DDoS) and web attack protection.
To be fair, if you don’t know or understand the data center architecture strategy called micro-segmentation, you aren’t a “dummy.” But it could mean you are missing a highly cost-effective opportunity to implement best-in-class data center security called the “Zero Trust” network. This special “For Dummies” edition explains micro-segmentation, how it enables Zero Trust, and why it is now within your organization’s reach.
Download your free copy of this book now.
Undoubtedly you are aware of network virtualization, but perhaps you’ve yet to hear a compelling case for it. If the extended network capabilities and simplified management enabled by network virtualization aren’t compelling enough reasons, data center security should be. To manage today’s coordinated and persistent security threats, which often come from within, data centers need to implement “Zero Trust” networking. Virtualization puts it within your reach. Discover why — download this free business case white paper now.
The mobile workspace has created problems for IT, including policy enforcement, attack from untrusted wireless networks, and physical data theft. This white paper examines how cloud-based security solutions can protect distributed workers.
Data breaches have become a fact of life for organizations of all sizes, in every industry and in many parts of the globe. While many organizations anticipate that at some point a non-malicious or malicious data breach will occur, the focus of this study is to understand the steps organizations are taking—or not taking--to deal with the aftermath of a breach or what we call the Post Breach Boom.
Sponsored by Solera Networks, The Post Breach Boom study was conducted by Ponemon Institute to understand the differences between non-malicious and malicious data breaches and what lessons are to be learned from the investigation and forensic activities organizations conduct following the loss or theft of sensitive and confidential information. The majority of respondents in this study believe it is critical that a thorough post-breach analysis and forensic investigation be conducted following either a non-malicious or malicious security breach.
The Tenth Annual State of the Network Global Study
focuses a lens on the network team’s role in security
investigations. Results indicate that 88 percent of
network teams are now spending time on security
issues. In fact, out of 1,035 respondents, nearly
3 out of 4 spend up to 10 hours per week working
exclusively on these types of problems - in addition
to managing network upgrades, SDN, cloud, and big
When it comes to technology adoption, both cloud and
100 GbE deployment continue to grow aggressively.
VoIP adoption is closing in on 60 percent and
software-defined networking (SDN) is projected to
cross the halfway mark, indicating compounding
network complexity amidst the ongoing struggle to
ID security threats.
With growth comes change and some trends
identified in this year’s survey include a rise in email
and browser-based malware attacks (63 percent)
and an increase in sophistication (52 percent). Nearly
1 in 3 also report a surge in DDoS attacks, signaling
Increasingly complex networks, require more than a one-size-fitsall
approach to ensuring adequate performance and data integrity.
In addition to the garden-variety performance issues such as slow
applications, increased bandwidth requirements, and lack of visibility
into cloud resources, there is also the strong likelihood of a malicious
While many security solutions like firewalls and intrusion detection
systems (IDS) work to prevent security incidents, none are 100 percent
effective. However, there are proactive measures that any IT team can
implement now that can help ensure that a successful breach is found
quickly, effectively remediated, and that evidential data is available in
the event of civil and/or criminal proceedings.