Keeping your personal information secure is very important to us. Therefore, we utilize 128-bit Secure Socket Layer (SSL) technology on all client sites, the industry's leading data security solutions, and we have implemented policies and procedures to ensure the physical and electronic security of data stored by fmyi in a world class data center.
A full automated georedundant backup of the database is performed every night to a secure site. An additional weekly backup of the database is also performed.
SSL provides endpoint authentication and communications privacy over the Internet using cryptography. In typical use, only the server is authenticated (i.e. its identity is ensured) while the client remains unauthenticated; mutual authentication requires public key infrastructure (or PKI) deployment to clients. The protocols allow client/server applications to communicate in a way designed to prevent eavesdropping, tampering, and message forgery.
The redundant network infrastructure is comprised of top brand networking equipment from Cisco and Foundry. This hardware lies in a fully meshed configuration. The core of the network is fully redundant, for every switch or router there is at least one redundant hot spare. The network is connected to multiple Tier 1 network providers (currently MCI/UUNet, Level(3), XO, WilTel) to minimize the network distance to the end user and to build network redundancy. The network is always below 50% total utilization. This allows peak network performance during normal traffic spikes. From the redundant core are two diverse network connections from two separate core switches. While only one connection is used to route traffic, the second connection is a hot-standby circuit ready to route traffic in the event of problem. The change-over to the hot-standby circuit happens instantly without any changes to the network configuration.
Most Enterprise-ISP networks send traffic to its destination using Border Gateway Protocol (BGP). BGP is a network protocol that chooses how to send information through the Internet based upon the fewest number of available network hops. One challenge with BGP is that it does not take individual network quality or performance into account when making these routing decisions. Using BGP alone is not enough to ensure predictable network performance. While the network also utilizes BGP, things are taken one step further. Several network metric tools are used to determine the quickest and most reliable path to the end user. This is done by taking network samples using very small probes (UDP) across all available paths from the data center to the end user. Once the best path has been determined, the BGP routes are then manipulated to improve network performance. These improvements are done in real-time to allow for quick changes on an always changing Internet. The result is consistent end-to-end network performance for business critical applications. Because of the Intelligent Routing, network latency is improved on average 35% over normal network performance and almost eliminates network brownouts and outages. We utilize one of the few network providers that offers an Intelligent Routed network over using standard BGP.
The data center is situated on a dual utility power grid and houses POPs for all of the major carriers operating in the region including: MCI (UUNet), Level(3), XO Communications, Sprint, AT&T, WilTel, Qwest, SBC, Broadwing, McLeodUSA, and Cogent. This allows for "On-Net" connections to these providers with no local loops. The facility incorporates state-of-the-art security, redundancy in all critical systems, an on-site NOC and is staffed by qualified engineers 24/7/365.