Monterey 8000™

Monterey 80008U Enhanced MicroTCA.4 Platform
 

The Monterey 8000 Application-Ready Platform, based on the MicroTCA.4 specification, bridges the gap between AdvancedTCA and MicroTCA.

The Monterey 8000 platform, based on the Enhanced MicroTCA.4 specification along with high performance processing, high-speed IP-based fabric switching, and integrated Linux OS, middleware, and protocols, is highly tuned for next generation networking applications. Equipment Manufacturers, developing 4G Mobile and Telecom Aggregation Layer applications such as LTE EPC Gateways, Media Gateways, Security Services, IMS-based Services, and Military Sensor Acquisition and Communications Systems can take advantage of the latest advancements in high performance, multi-core processing and high-speed 10GbE fabrics in smaller, more cost-effective standards-based form factors.
  • Fully Integrated 8U Enhanced MicroTCA.4 Platform
  • Supports 12 AdvancedMC™ Modules with MicroTCA Rear Transition Modules
  • Highly Tuned for Aggregation Layer Applications
  • High-Density Computing
  • Redundant 10GbE to AMCs, 40GbE Aggregated Uplinks
  • Layer 2/3 Ethernet Management
  • 40GbE-ready to all AMC slots
  • Highly Flexible and Scalable Architecture
  • Carrier Grade, Five-Nines Availability w/ Complete Redundancy
  • Suitable for Wireless, Telecom, Aerospace, and Defense
  • Pre-Integrated w/ AMC’s, NexusWare® Linux-based Distribution, Other Value-Add Software
Designed as a complement to AdvancedTCA-based systems, whose large footprint is best suited for Telecommunication Core networks, the Monterey platforms’s support for AMC’s with MicroTCA Rear Transition Modules permits precise right-sizing, added granularity in scaling, and simplified maintenance for a multitude of Aggregation Layer networking and service-based applications targeted for demanding operating environments such as telecom central offices with NEBS or ETSI requirements, data centers, wireless infrastructure, aerospace and defense applications. The system is a full integration of hardware and software components, enabling embedded designers to quickly develop high availability, compute-intensive applications, and/or high-speed networking applications.