Existing security controls are outmatched — at best static and reactive. Current layers likely aren’t protecting you against all attack vectors, like the vulnerable back door that is recursive DNS. And security mechanisms that frustrate, impede, or disallow legitimate users, devices, or applications will have low adoption rates and/or will curtail productivity. Benign users may even circumvent these processes, further undermining your corporate security posture and creating more gaps in your defense-in- depth strategy.
One of the many use cases associated with a zero trust security strategy is protecting your network — and most importantly, your data — from malware.
A zero trust security and access model is the solution: Every machine, user, and server should be untrusted until proven otherwise. But how do you achieve zero trust?
Read this white paper authored by Akamai’s CTO, Charlie Gero, to learn how to transition to a perimeter-less world in an incredibly easy way, with steps including:
• The zero trust method of proof
• The vision behind Google BeyondCorpTM
• Analysis of application access vs. network access
• How to deploy user grouping methodology
• Guidance for application rollout stages 1-8
"VPNs were created for the networks and business environment of yesterday: Most employees worked in an office, devices were limited, enterprise architecture was far less complex, and attacks, in general, were considerably less sophisticated and frequent.
What worked 20 years ago cannot be trusted today. Your VPN is cumbersome and time consuming from a management and performance perspective. But what you might not want to concede is that VPNs, by their very nature, pose a significant threat to enterprise security.
Read this white paper to learn more about:
The vulnerabilities and inefficiencies of traditional remote access
-Why VPN elimination must happen now
-The four advantages to eliminating your VPN
-How a cloud framework for application access works
-Next steps to implement a more secure access solution"
Employees, devices, and applications are no longer locked away inside the corporate perimeter. They’re on the web and on the go. Providing security for a new breed of anytime, anywhere workers and cloud-based applications requires a novel approach: a zero trust security model.
Assuming that every user, request, and server is untrusted until proven otherwise, a zero trust solution dynamically and continually assesses trust every time a user or device requests access to a resource. But zero trust offers more than a line of defense.
The model’s security benefits deliver considerable business value, too. Read this white paper to learn more about:
-Protecting your customers’ data
-Decreasing the time to breach detection
-Gaining visibility into your enterprise traffic
-Reducing the complexity of your security stack
-Solving the security skills shortage
-Optimizing the end-user experience
-Facilitating the move to the cloud
Hyperconverged infrastructure (HCI) is the best strategic option for meeting your organization’s demands for increased efficiency and agility while leveraging existing apps and data. HCI is a scale-out software-defined infrastructure that converges core data services on flash-accelerated, industry standard servers, delivering flexible and powerful building blocks under unified management.
Put simply, HCI has the potential to revolutionise your security environment and increase efficiencies relating to application performance.
In this whitepaper, we break down the top 5 reasons why hyperconverged infrastructure is the right way forward for your organisation.
Please enter your details to access the whitepaper.
If you’re dealing with the high cost and complexities of
delivering reliable wide area connectivity over traditional
carrier-based networks, you’re probably considering
some form of software-defined wide area networking
(SD-WAN). With the variety of constraints that you face,
selecting the right SD-WAN solution for your enterprise
may require a few compromises. Security, however,
should not be one of them.
There are various models for combining SD-WAN and
network security, but only one that can truly be called
“secure SD-WAN.” Fortinet, the most trusted name
in network security, has leveraged its industry-leading
FortiGate Next Generation Firewall (NGFW) to deliver
integrated best-of-breed SD-WAN capabilities. Powered
by the new FortiOS 6.0 operating system, SD-WANenabled
FortiGate solutions provide the right level of
service for every application, while ensuring effective
protection from advanced evolving threats across your
A range of application security tools was developed to support the efforts to secure the enterprise from the threat posed by insecure applications. But in the ever-changing landscape of application security, how does an organization choose the right set of tools to mitigate the risks their applications pose to their environment? Equally important, how, when, and by whom are these tools used most effectively?
Today, when you make decisions about information technology (IT) security priorities, you must often strike a careful balance between business risk, impact, and likelihood of incidents, and the costs of prevention or cleanup. Historically, the most well-understood variable in this equation was the methods that hackers used to disrupt or invade the system.
The Business Case for Data Protection, conducted by Ponemon Institute and sponsored by Ounce Labs, is the first study to determine what senior executives think about the value proposition of corporate data protection efforts within their organizations. In times of shrinking budgets, it is important for those individuals charged with managing a data protection program to understand how key decision makers in organizations perceive the importance of safeguarding sensitive and confidential information.
Entrust’s SSL/TLS Best Practices Guide is a key resource for those charged with SSL (Secure Sockets Layer) and TLS (Transport Layer Security) deployment. In our guide, you’ll find expert advice from the thought leaders at Entrust on SSL/TLS certificate installation, and tips for managing security for optimal performance.
Included in the SSL/TLS Best Practices Guide:
Certificates and Private Keys
Enhanced Server Security
Our guide is designed to help make SSL/TLS certificate installation easier, so you can use SSL expertly and with confidence.
The Cisco SD-WAN solution is a cloud-delivered overlay WAN architecture that enables digital and cloud transformation at enterprises. It significantly reduces WAN costs and time to deploy new services, and, builds a robust security architecture crucial for hybrid networks. Enterprises today face major user experience problems for SaaS applications on account of networking problems. The centralized Internet exit architecture is inefficient and results in poor SaaS performance. And branch sites are running out of capacity to handle Internet traffic which is a concern because more than 50% of branch traffic is destined to the cloud. More importantly there are many dynamic changes in Internet gateways and the SaaS hosting servers that lead to unpredictability in performance. The Cisco SD-WAN solution solves these problems by creating multiple Internet exit points, adding high bandwidth at branch locations, and dynamically steering around problems in real-time, resulting is an optimal SaaS
Published By: Cisco EMEA
Published Date: Nov 13, 2017
Encryption technology has enabled much greater privacy and security for enterprises that use the Internet to communicate and transact business online. Mobile, cloud and web applications rely on well-implemented encryption mechanisms, using keys and certificates to ensure security and trust. However, businesses are not the only ones to benefit from encryption.
To overcome the challenges and risks of the digital era, while positioning their businesses for success, SMBs need to partner with professional services organizations with the expertise that can safely guide them through achieving the following six key IT business initiatives:
A strong information security framework (for external and internal threats)
24x7 application availability
Pervasive, end-to-end data protection
End-to-end professional services
Web application and DDoS attacks hit enterprises without warning or reason. Most Distributed Denial of Service (DDoS) attacks require little skill to launch with attackers can simply rent resources from DDoS-for-hire sites at a low cost.. In comparison, DDoS attacks typically result in:
• Operational disruption
• Loss of confidential data
• Lost user productivity
• Reputational harm
• Damage to partner and customer relations
• Lost revenue
Depending on your industry, that could add up to tens of thousands of dollars in damage – and in some cases it could be millions. Only 2% of organizations said their web applications had not been compromised in the past 12 months – 98% said they had.
Ponemon Institute surveyed 569 individuals in IT security who are familiar with credential stuffing and are responsible for the security of their companies’ Internet properties. The survey identified key stats about credential stuffing, including the costs organizations incur to prevent damage, and the financial consequences when attackers succeed.
According to respondents, these attacks cause costly application downtime, loss of customers, and involvement of IT security that can result in a cost of millions of dollars. The survey highlights the challenges in identifying who is accessing their websites using stolen credentials, as well as the difficulty in preventing and remediating these attacks.
Small and midsized businesses (SMBs) face many challenges as they adapt to today’s new style of doing business. Shifting government regulations, threats to network security, requirements for 24x7 application availability and the demands for new methods to work with customers, suppliers and employees require ongoing investments in IT. These issues impact SMBs even harder because of budget constraints and limited IT resources. SMB’s who learn how to efficiently utilize IT assets and increase IT productivity will be successful.
Published By: Dell EMC
Published Date: Nov 08, 2016
Your data center struggles with competing requirements from your lines of business and the finance, security and IT departments. While some executives want to lower cost and increase efficiency, others want business growth and responsiveness. But today, most data center teams are just trying to keep up with application service levels, complex workflows, and sprawling infrastructure and support costs.
The world set a new record for data breaches in 2016,
with more than 4.2 billion exposed records, shattering the former record of 1.1 billion in 2013. But if 2016 was bad, 2017 is shaping up to be even worse. In the first six months of 2017, there were 2,227 breaches reported, exposing over 6 billion records and putting untold numbers of accounts at risk. Out of all these stolen records, a large majority include usernames and passwords, which are leveraged in 81 percent of hacking-related breaches according to the 2017 Verizon Data Breach Investigations Report. Faced with ever-growing concerns over application and data integrity, organizations must prioritize identity protection in their
security strategies. In fact, safeguarding the identity of users and managing the level of access they have to critical business applications could be the biggest security challenge organizations face in 2017.
There’s a reason why web application firewalls have been getting so much attention lately. It’s the same reason we keep hearing about major security and data breaches left, right, and center. Web application security is difficult—very difficult.
Published By: Oracle CX
Published Date: Oct 19, 2017
Oracle has just announced a new microprocessor, and the servers and engineered system that are powered by it. The SPARC M8 processor fits in the palm of your hand, but it contains the result of years of co-engineering of hardware and software together to run enterprise applications with unprecedented speed and security.
The SPARC M8 chip contains 32 of today’s most powerful cores for running Oracle Database and Java applications. Benchmarking data shows that the performance of these cores reaches twice the performance of Intel’s x86 cores. This is the result of exhaustive work on designing smart execution units and threading architecture, and on balancing metrics such as core count, memory and IO bandwidth. It also required millions of hours in testing chip design and operating system software on real workloads for database and Java. Having faster cores means increasing application capability while keeping the core count and software investment under control. In other words, a boost
Published By: Oracle CX
Published Date: Oct 19, 2017
Modern technology initiatives are driving IT infrastructure in a new direction. Big data, social business, mobile applications, the cloud, and real-time analytics all require forward-thinking solutions and enough compute power to deliver the performance required in a rapidly evolving digital marketplace. Customers increasingly drive the speed of business, and organizations need to engage with customers on their terms. The need to manage sensitive information with high levels of security as well as capture, analyze, and act upon massive volumes of data every hour of every day has become critical. These challenges will dramatically change the way that IT systems are designed, funded, and run compared to the past few decades. Databases and Java have become the de facto language in which modern, cloud-ready applications are written. The massive explosion in the volume, variety, and velocity of data increases the need for secure and effective analytics so that organizations can make better
Published By: Oracle CX
Published Date: Oct 19, 2017
Modern technology initiatives are driving IT infrastructure in a new direction. Big data, social business,
mobile applications, the cloud, and real-time analytics all require forward-thinking solutions and
enough compute power to deliver the performance required in a rapidly evolving digital marketplace.
Customers increasingly drive the speed of business, and organizations need to engage with customers
on their terms. The need to manage sensitive information with high levels of security as well as
capture, analyze, and act upon massive volumes of data every hour of every day has become critical.
These challenges will dramatically change the way that IT systems are designed, funded, and run
compared to the past few decades. Databases and Java have become the de facto language in which
modern, cloud-ready applications are written. The massive explosion in the volume, variety, and
velocity of data increases the need for secure and effective analytics so that organizations can make
Published By: Oracle CX
Published Date: Oct 19, 2017
Oracle’s software in silicon technology is truly revolutionary for providing security and workload performance increases beyond the scale of traditional new processor technology improvements. It was the vision of Oracle over 4 years ago to integrate application acceleration and security capabilities at the processor level, which enables the highest levels of security and the highest application performance levels.
Software in Silicon technology is an example why Oracle software runs best on Oracle systems and will be incorporated across Oracle systems and software products including engineered systems and operating systems.