Wintegra Adds Adaptive Clock Recovery to its Multi-service Access Hardware and Software Portfolio.AUSTIN, Texas -- Wintegra(TM), a leading provider of access processing semiconductors, announced today that it has added Adaptive Clock Recovery to its suite of Multi-service Access support. This proprietary algorithm enables the Wintegra PWE3 solution to meet the G.823 and G.824 Jitter and Wander masks in traffic conditions as defined by the Metro Ethernet Forum The Metro Ethernet Forum (MEF) was founded in 2002. It is a non-profit international industry consortium, dedicated to worldwide adoption of Carrier Ethernet networks and services. and G.8261-draft. It also meets the more stringent requirements of 3G applications. This opens new opportunities for using WinPath(TM) family products in Wireless Backhaul applications such as transport of T1/E1 (that connect NodeB/BTS to RNC/BSC) over Metro Ethernet and 2G/3G collocation. Wintegra offers a Multi-service Access solution that supports termination of multiple protocols over T1/E1 lines. The protocols include ATM UNI, IMA (Interactive Multimedia Association, Annapolis, MD) An earlier trade association founded in 1988 originally as the Interactive Video Industry Association. It provided an open process for adopting existing technologies and was involved in subjects such as networked services, scripting , PPP (Point-to-Point Protocol) The most popular method for transporting IP packets over a serial link between the user and the ISP. Developed in 1994 by the IETF and superseding the SLIP protocol, PPP establishes the session between the user's computer and the ISP using , ML-PPP ML-PPP Multi-Link Point-To-Point Protocol , FR, MFR MFR, n See myofascial release. , CES and PWE3 (TDM (Time Division Multiplexing) A technology that transmits multiple signals simultaneously over a single transmission path. Each lower-speed signal is time sliced into one high-speed transmission. , ATM, HDLC (High-level Data Link Control) A data link protocol from ISO for point-to-point communications over serial links. Derived from IBM's SDLC protocol, HDLC has been the basis for numerous protocols including X.25, ISDN, T1, SS7, GSM, CDPD, PPP and others. ). Multiple protocols can be used at the same time, over different T1/E1 interfaces. Two solution densities are available, up to 16 T1/E1 (512 DS0s channels) using only external framers and up to 336 T1/252 E1 (8064 DS0 channels) using an external FPGA (Field Programmable Gate Array) A type of gate array that is programmed in the field rather than in a semiconductor fab. Containing up to hundreds of thousands of gates, there are a variety of FPGA architectures on the market. (for which Wintegra provides the IP Core) and a Framer/Mapper. Once the protocols are terminated, the data can be interworked to a cell or packet back-plane or uplink, either by using switching, bridging or MPLS routing. One of the newest protocols supported in the framework of this solution is PWE3 (pseudo wire emulation edge to edge), that allows for the transport of different formats of data over packet networks. When transporting TDM data over a packet network (in most cases using draft-ietf-pwe3-satop or draft-ietf-pwe3-cesopsn), the TDM timing information is lost. If there are no external means for synchronization, the TDM clock needs to be recovered from the arrival rate of the packets that transport the TDM data. This is a particularly challenging operation, considering the low jitter/wander requirements of T1/E1 clocks and the typical behavior of packet networks that includes large packet delay variations, lost packets and re-ordered packets. The Wintegra Adaptive Clock recovery solution meets this challenge using a proprietary algorithm that runs on its Packet Processor in Data Path Software. This solution meets the stringent requirements of G.823 and G.824 Jitter and Wander masks. The measurements were performed for network conditions defined by the Metro Ethernet Forum documents and also according to the ITU-T See ITU. ITU-T - International Telecommunications Union Recommendation G.8261 ("Timing and synchronization aspects in packet networks"). This recommendation defines the maximum network limits of jitter and wander and the minimum equipment tolerance to jitter and wander that needs to be provided at the boundary of packet networks at TDM interfaces. For a test report, contact Wintegra. The solution also meets the more restrictive requirements of TS-25.402 (Testing Synchronization in UMTS networks) which makes it well suited for 3G (and 2G) wireless applications. About Wintegra, Inc. Wintegra is a leading provider of access processing semiconductors enabling the delivery of new services for the evolving communications network infrastructure. Its access processors and networking software provide the essential intelligence and upgradeability for infrastructure equipment to support the emerging networks based on the convergence of voice, video, data and wireless services. Wintegra-based solutions are available for a wide range of communication platforms such as wireless infrastructure, digital subscriber line See DSL. (communications, protocol) Digital Subscriber Line - (DSL, or Digital Subscriber Loop, xDSL - see below) A family of digital telecommunications protocols designed to allow high speed data communication over the existing copper telephone lines between end-users and , or DSL, Multi-service Access, voice over Internet Protocol, or VoIP, and access routers and are used by many of the leading telecom and networking equipment manufacturers worldwide. More information is available at www.wintegra.com. |
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