DNS, DHCP & IP Address Management appliances
For Microsoft DNS & DHCP servers
For open source DNS & DHCP servers
Cloud-based visualization of analytics across DDI architecture
Manage multi-vendor cloud DNS servers centrally
RIR Declaration Management and Automation
Automated network device configuration and management
Centralized visibility over all your clouds
A single source of truth for your network automation
Why DDI is an Obvious Starting Point
DNS Threat Intelligence for proactive defense
Intelligence Insights for Threat Detection and Investigation
Adaptive DNS security for service continuity and data protection
Improve Application Access Control to prevent spread of attacks
Protect users and block DNS-based malware activity
Carrier-grade DNS DDoS attack protection
Optimize application delivery performance from the edge
for Proactive Network Security
Visibility, analytics and micro segmentation for effective Zero Trust strategy
Enable work from anywhere by controlling access, security and data privacy
Simplify management and control costs across AWS, Azure and GCP environments
Risk-free migration to reduce DDI complexity and cost
Move risk-free to improve performance, security and costs
Automate management, unify control and strengthen security of connected devices
Protect your network against all DNS attacks, data exfiltration and ransomware
Enable zero touch operations for network management and security
Improve resiliency, deployment velocity and user experience for SD-WAN projects
Integrated DNS, DHCP, IPAM services to simplify, automate and secure your network.
Simplify design, deployment and management of critical DDI services for telcos
Optimize administration and security of critical DDI services for healthcare
Simplify and automate management of critical DDI services for finance
Simplify and automate management of critical DDI services for higher education
Simplify and automate management of critical DDI services for retail
Simplify Management and Automation for Network Operations Teams
Open architecture for DDI integration
Technology partnerships for network security & management ecosystems
Extend security perimeters and strengthen network defenses
Submit requests for temporary licenses
Submit access requests for EfficientIP knowledge platforms
Submit membership requests for EfficientIP Community
Strengthen Your Network Protection with Smart DNS Security
Customer-centric DDI project delivery and training
Acquire the skills needed to manage EfficientIP SOLIDserverâ„¢
Identify vulnerabilities with an assessment of your DNS traffic
Test your protection against data breaches via DNS
Dedicated representation for your organization inside EfficientIP
Explore content which helps manage and automate your network and cloud operations
Read content which strengthens protection of your network, apps, users and data
Learn how to enhance your app delivery performance to improve resilience and UX
Why Using DNS Allow Lists is a No-Brainer
This enterprise-grade cloud platform allows you to improve visibility, enhance operational efficiency, and optimize network performance effortlessly.
Who we are and what we do
Meet the team of leaders guiding our global growth
Technology partnerships for network security and management ecosystems
Discover the benefits of the SmartPartner global channel program
Become a part of the innovation
The latest updates, release information, and global events
What is IPv6? IPv6 is the newest generation of Internet Protocols. IPv6 uses a 128-bit IP address to support demand for global IP addresses as it grows. Internet Protocol, also known as IP, is the set of rules internet-based devices follow for communication. IPv6 is the successor of the widely used IPv4, which has been showing signs of needing retirement since 2011.
The extensive list of devices using IPv4 has exhausted that version of Internet Protocol, and now IPv6 is needed to take over. The key difference, or upgrade, in IPv6 is the use of a 128-bit IP address.
By using IPv6, users will be afforded a long list of advantages and benefits. Here are key benefits:
IPv6 utilizes 128-bit Internet addresses vs the 32-bit of IPv4. Therefore, it can support 2^128 Internet addresses compared to the meager 4.3~ billion of IPv4. IPv6 is becoming more common in cloud computing providers and consumer access networks.
As IPv6 becomes more prevalent in software engineering environments and with the general public, it would be best to learn how it differs from its predecessor and the advanced features it contains.
IPv6 is an enhancement of IPv4, designed to provide an unprecedented number of IP addresses so the world will not have to adapt to another Internet Protocol anytime soon.
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