BARCELONA, Spain, Feb. 24, 2014 /PRNewswire/ -- Mobile World Congress -- Cavium, Inc. (NASDAQ: CAVM), a leading provider of semiconductor products that enable intelligent processing for enterprise, data center, wired and wireless networking, today announced that the company will showcase scalable solutions for RAN, Core and Cloud Infrastructure based on OCTEON ®, and OCTEON Fusion ® SoCs during Mobile World Congress taking place at the Fira Gran Via in Barcelona, Spain from February 24 th - 27 th.
The OCTEON family of multi-core MIPS64 ® processors provides up to 120GHz of 64-bit processing and targets high-performance, high-throughput, service-rich applications for Cloud, Secure Data Center, Wireless Infrastructure, Enterprise and Storage equipment. The family includes a range of software compatible processors, with up to 48 cnMIPS64 III cores, over 500 application acceleration engines, including integrated high-performance search processing leveraged from Cavium's NEURON Search processors, chip-to-chip interconnect and an innovative realtime PowerMin™ power manager, providing the highest compute and services performance of any standard ISA processor.
OCTEON Fusion processors deliver industry-leading 128 active user connectivity and 150 Mbps down link/75 Mbps uplink throughput for LTE enterprise-class and indoor and outdoor small cell base stations. OCTEON Fusion is based on an advanced multi-core SoC architecture that includes integrated purpose-built baseband DSP cores, high performance MIPS64 cores, extensive hardware accelerators and Digital Front End (DFE) processing, all in a single chip. Cavium's fully-integrated, carrier-deployed LTE stack software includes TR-069-based O&M functionality, IEEE1588 v2 timing synchronization and advanced SON support. These solutions include complete turn-key reference designs and comprehensive software packages.Cavium's TurboDPI™ software will allow TEMs to quickly deploy network element designs for 4G LTE and carrier cloud-based services that require high performance deep pack inspection processing of the ever growing volume of mobile data.