Thank you for sharing the story. Security fences are still being used today but companies are transitioning from the expensive security fences to the integration of electronic access control, monitoring and management systems at the data center cabinet level. In high security areas involving fences, it is often necessary for employees to accompany outside contractors to the secured server to ensure the contractor gains access only to specified enclosures. Mechatronic access control, monitoring and management systems like E-LINE by DIRAK eliminates the need for an escort allowing employees to be more productive with their time and reduce costs.
For most data centers, old physical security technology is being used (video cameras, security fences, security guards, etc). Most data center rooms are secured with palm readers, proximity card readers and keyed locks. However, the server racks and enclosures housing data and critical assets are left unsecured within the rooms. Hackers which include trusted employees, contractors and so on can still get access to the cabinet level even with perimeter security, building security and room security in place. A company may never know when a security breach happened if an access control, monitoring and management system is not in place at the rack or enclosure level.
E-LINE by DIRAK is a mechatronic security system designed to give a high level of security at the rack or enclosure for indoor and outdoor applications. It controls access to individual racks and enclosures, monitors when individuals have access and provides a complete audit trail. It is based on RFID transponder technology allowing all access to be identified and authorized. The E-LINE by DIRAK swing handles can be accessed with an authorized RFID card and a DIRAK supplied battery pack plugged in during a power failure or server down (Reader module stores up to 500 events). This insures complete chain-of-custody.
Additional levels of security are integrated into E-LINE by DIRAK including "Four Eyes" Principle where the electronic swing handle device can only be opened when two users provide appropriate authorization at the same time to access the rack. Higher levels of security using Two-factor authentication which can include the use of biometric finger print scanners to access the rack or enclosure is available. Accessories including video cameras can also be tied into the system.
Today, companies have been more focused on cyber security from outside threats and less focused on the increased insider physical security threats. We are seeing an exponential growth of electronic data and critical assets stored on servers in data centers especially with the expansion of cloud services. This growth will continue to increase at a rapid rate over the next 5 to 10 years. Hackers and thieves continually innovate so there is a greater need to invest in physical security at the rack or enclosure level to protect critical data and assets to insure companies have a resilient system in place and are in compliance with many of the regulatory compliance standards including HIPAA, PCI DSS, FISMA and Sarbanes-Oxley.
The one thing that's missing from the list is having a reliable backup system. All of this falls apart if it cannot be maintained during any sort of system failure (power, equipment, software and other). It is often the anomalies that can give access where it would not otherwise be available.
From the items on the list, I still think that the audit ability is one of the most important. A person with a less than honorable intension may not worry as much if it is found that "something" was done, especially if his plan is a hit-and-run. However, if it can be traced back to give him some uncomfortable questions, that might very well keep anything from happening in the first place.
Randy, I was working on a highly secure data center project a few years ago and this was something that was being done, at least at data centers I was aware of. In fact, the vendor of a surveilence system that we talked to used a funny story to show the value of their system. This system used video surveilance and sophiscated algorithms to detect and isolate motion and events.
The story goes that a particular customer was having a power outage monthly. The racks were enclosed in wire cages to separate users. They just couldn't figure it out. Then they installed the surveilance system. Immediately they found that the tech from a competitor was throwing coins or scraps of metal into the cage affected until he caused a short. Why they did not find the coins, or whatever, before I do not know. Well, of course, this solved the problem.
Now this was eight or nine years ago. I will be interested to see what is being used today.
The company says it anticipates high-definition video for home security and other uses will be the next mature technology integrated into the IoT domain, hence the introduction of its MatrixCam devkit.
Siemens and Georgia Institute of Technology are partnering to address limitations in the current additive manufacturing design-to-production chain in an applied research project as part of the federally backed America Makes program.
Most of the new 3D printers and 3D printing technologies in this crop are breaking some boundaries, whether it's build volume-per-dollar ratios, multimaterials printing techniques, or new materials types.
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