Security

Azure Private Cloud

From its inception, CLARIFIRE® was designed and built as a secure application running within a secure infrastructure.

We employ our proprietary deployment automation and continuous integration methodology. We have a stringent Software Development Life Cycle process that is adhered to using our own instance of CLARIFIRE®. Other security best practices we use include:

  • Static & dynamic code analysis
  • Input validation
  • Authentication and password management
  • Error handling and logging
  • Access control
  • Data protection
  • Database security
  • Communication security
  • Industry standard encryption
  • Session management
  • Output encoding
  • Coding best practices
  • File management
  • System configuration
  • 100% developed and maintained in the US by US citizens

We use the CLARIFIRE® Application for change management, tracking, auditing and quality assurance to ensure the Azure Private Cloud (APC) infrastructure is free of defects that may compromise security. Other security features of the APC include:

  • Network segmentation
  • Identity and access management
  • File integrity monitoring
  • Real-time security monitoring and incident management
  • N+1 redundancy for all infrastructure components
  • Web application firewalls
  • Intrusion detection and prevention
  • Vulnerability management
  • Penetration scanning
  • Privileged access management
  • Antivirus protection
  • Encryption
  • Patching and maintenance
  • Disaster recovery
  • US-based data centers for production and disaster recovery

cybersecurity-challenges-cta

Data Center Provider

Azure

Clarifire’s systems are hosted in Microsoft Azure. Azure’s data centers are state-of-the-art facilities designed to house and manage a vast array of interconnected servers, storage systems, and networking infrastructure. These data centers serve as the backbone of Microsoft's cloud computing platform, offering a scalable and reliable environment for hosting a wide range of digital services and applications. They are strategically located around the world to ensure low-latency access for users and clients, and they incorporate advanced technologies for energy efficiency, security, and redundancy, ensuring seamless operation and high availability of services hosted on the Azure platform.