Redefining performance in a device smaller than a soda bottle.
Designed with a scalable architecture consistent with the AMPEX Common Compute Environment™ (ACCE), the TuffServ540 recorder / reproducer supports a wide range of applications. With its compact size, low weight, and I/O options, it can be used wherever it is needed.
Designed for Unique Environments
With dimensions of 8.5” x 4.25” x 2.9” (215mm x 108mm x 74mm), the TuffServ 540 comes in at approximately 105 cu. Inches (1.7 liters) and weighs less than 10 lbs (4.5Kg). Combined with rugged, MIL-Spec qualifications, it is uniquely suited for applications where performance cannot be sacrificed, despite installation challenges.
Performance, Security and Capacity
Based on the standardized processing platform using Red Hat Linux version 7.1 common amongst all TuffServ models, the TuffServ 540 celebrates sustained data rates in excess of 800 MB/sec for onboard data storage applications. The base TuffServ 540 provides two 1000Base-T interfaces plus a 100Base-T port for control/status, as well as expansion capability through a high-speed XMC interface site with options for 10 Gigabit Ethernet (up to 4 channels), VITA 17.1 sFPDP (two or four channels) and other I/O types. Additional I/O is available via a miniPCIe site, for MIL-STD-1553B, etc.
To support this range of interfaces, the TuffServ 540 provides a high-capacity, high performance detachable memory module using a pair of NVMe SSDs, offering total capacities up to 16TB and higher, as memory technology matures. The memory modules leverage rugged COTS media solutions, further qualified by AMPEX to meet the requirements of challenging programs.
Designed for Flexibility
The heart of the TuffServ 540 is a standardized, rugged pluggable processing module, integrating the CPU with memory and I/O interfaces such as mini-PCI Express, XMC, USB, Ethernet and serial ports. This design provides opportunities to expand and adapt the platform for new or unique requirements, as well as provide options such as MIL-STD-1553 control and GPS time synchronization. This also facilitates product reliability and long-term supply by isolating the intricacies of the CPU from the overall system; as CPU technology evolves, alternative modules can be used without changing the system’s internal and external interfaces.