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    SIBERCORE TECHNOLOGIES Search Results

    SIBERCORE TECHNOLOGIES Result Highlights (5)

    Part ECAD Model Manufacturer Description Download Buy
    CS-SATDRIVEX2-001 Amphenol Cables on Demand Amphenol CS-SATDRIVEX2-001 Serial ATA Extension Cable - SATA II Drive Extension Cable with Power (6.0 Gbps) 1m Datasheet
    CS-SATDRIVEX2-002 Amphenol Cables on Demand Amphenol CS-SATDRIVEX2-002 Serial ATA Extension Cable - SATA II Drive Extension Cable with Power (6.0 Gbps) 2m Datasheet
    CS-SATDRIVEX2-000.5 Amphenol Cables on Demand Amphenol CS-SATDRIVEX2-000.5 Serial ATA Extension Cable - SATA II Drive Extension Cable with Power (6.0 Gbps) 0.5m Datasheet
    CS-SASDDP8282-000.5 Amphenol Cables on Demand Amphenol CS-SASDDP8282-000.5 29 position SAS to SATA Drive Connector Dual Data Lanes Cable 0.5m Datasheet
    CS-SASDDP8282-001 Amphenol Cables on Demand Amphenol CS-SASDDP8282-001 29 position SAS to SATA Drive Connector Dual Data Lanes Cable 1m Datasheet

    SIBERCORE TECHNOLOGIES Datasheets Context Search

    Catalog Datasheet MFG & Type PDF Document Tags

    ternary content addressable memory VHDL

    Abstract: No abstract text available
    Text: Reference Design Network Co-Processor SiberBridge: A Virtex-II Platform FPGA Interface for SiberCAM Arrays You can quadruple your network speed by implementing a Xilinx Platform FPGA interface with content addressable memory arrays from SiberCore. by Jean-Louis Brelet


    Original     		PDF com/xapp/xapp254 ternary content addressable memory VHDL

    Sibercore

    Abstract: CLK180 XAPP254 Sibercore Technologies longest prefix match CAM
    Text: Application Note: Virtex-II Family R Virtex-II SiberBridge Author: Ratima Kataria & the SiberCore Applications Engineering Group XAPP254 v1.1 February 25, 2005 Summary Designed to be implemented in a Virtex -II FPGA, the Virtex-II SiberBridge is a register


    Original     		PDF XAPP254 32-bit Sibercore CLK180 XAPP254 Sibercore Technologies longest prefix match CAM

    Sibercore

    Abstract: XAPP254 Sibercore Technologies ternary content addressable memory CLK180 SiberCAM longest prefix match CAM
    Text: Application Note: Virtex-II Family R The Virtex-II SiberBridge Author: Ratima Kataria & the SiberCore Applications Engineering Group XAPP254 v1.0 January 12, 2001 Summary Designed to be implemented in a Virtex -II FPGA, the Virtex-II SiberBridge is a register


    Original     		PDF XAPP254 32-bit Sibercore XAPP254 Sibercore Technologies ternary content addressable memory CLK180 SiberCAM longest prefix match CAM

    Ternary CAM

    Abstract: SCT9000 Ultra-9M OC-768 Sibercore Technologies ternary
    Text: SiberCAM Ultra-9M SCT9000 The SiberCAM Ultra-9M is the latest in the SiberCAM product family offering the fastest ternary Content Addressable Memory CAM based Packet Forwarding Engine (PFE) with the highest density for multi-Gigabit/Terabit routers and multi-layer


    Original     		PDF SCT9000 10Mb/100Mb/1Gb/10Gb Ternary CAM SCT9000 Ultra-9M OC-768 Sibercore Technologies ternary

    Sibercore

    Abstract: Ultra-9M Ternary CAM OC-768 ternary content addressable memory ternary longest prefix match CAM
    Text: The SCT9020 offers the fastest ternary Content Addressable Memory CAM based Packet Forwarding Engine (PFE) with density suitable for multi-Gigabit/Terabit routers and multi-layer enterprise switches. Featuring full search rate support for 36, 72 and 144-bit look-ups, the SiberCAM Ultra-9M is fully backward compatible with its


    Original     		PDF SCT9020 144-bit 10Mb/100Mb/1Gb/10Gb SCT-001-9020 Sibercore Ultra-9M Ternary CAM OC-768 ternary content addressable memory ternary longest prefix match CAM

    Sibercore

    Abstract: ternary cam SCT2000 ternary content addressable memory OC-768 content addressable memory SiberCAM "Content Addressable Memory"
    Text: SiberCAM Ultra-2M SCT2000 The SiberCAM Ultra-2M is the fastest, highest capacity ternary TM Content Addressable Memory CAM based Packet Forwarding Engine (PFE), offering the best price performance for multiGigabit/Terabit routers and multi-layer enterprise switches. It


    Original     		PDF SCT2000 Sibercore ternary cam SCT2000 ternary content addressable memory OC-768 content addressable memory SiberCAM "Content Addressable Memory"

    ternary content addressable memory

    Abstract: Ternary CAM SCT9022 SCT4502 Sibercore Technologies Sibercore Sibercore Technologies SCT9022 Content Addressable Memory "Content Addressable Memory"
    Text: The SCT4502 Packet Forwarding Engine PFE offers the optimal price performance trade off for today's system requirements. Based on ternary Content Addressable Memory (CAM) technology, the SCT4502 is fully compatible with other, higher capacity members of the SiberCAM family (SCT9022 and SCT1842).


    Original     		PDF SCT4502 SCT9022 SCT1842) 576-bits 10Mb/100Mb/1Gb/10Gb SCT-001-4502 ternary content addressable memory Ternary CAM Sibercore Technologies Sibercore Sibercore Technologies SCT9022 Content Addressable Memory "Content Addressable Memory"

    Ternary CAM

    Abstract: SCT1842 SCT2000 Sibercore SCT9000 ternary content addressable memory SCT9022 0C-48 Sibercore Technologies SCT9022 longest prefix match CAM
    Text: Able to support up to 256k 72-bit entries, the SCT1842 Packet Forwarding Engine PFE is targeted at applications requiring large look-up tables. Based on ternary Content Addressable Memory (CAM) technology, the SCT1842 is fully backward compatible with the other members of the SiberCAM family (SCT2000, SCT9000, SCT9020 &


    Original     		PDF 72-bit SCT1842 SCT2000, SCT9000, SCT9020 SCT9022) 576-bits 10Mb/100Mb/1Gb/10Gb SCT-001-1842 Ternary CAM SCT2000 Sibercore SCT9000 ternary content addressable memory SCT9022 0C-48 Sibercore Technologies SCT9022 longest prefix match CAM

    tag 9022

    Abstract: Sibercore Technologies SCT9022 SCT9022 SCT2000 Ternary CAM 9022 SCT9000 "Content Addressable Memory" ternary
    Text: The SCT9022 Packet Forwarding Engine PFE offers the optimal price performance trade off for today's system requirements. Based on ternary Content Addressable Memory (CAM) technology, the SCT9022 is fully backward compatible with other members of the SiberCAM family (SCT2000, SCT9000 & SCT9020).


    Original     		PDF SCT9022 SCT2000, SCT9000 SCT9020) OC-192 OC-48 10Mb/100Mb/1Gb/10Gb tag 9022 Sibercore Technologies SCT9022 SCT2000 Ternary CAM 9022 SCT9000 "Content Addressable Memory" ternary

    netlogic CAM

    Abstract: NetLogic "Content Addressable Memory" ternary content addressable memory ternary netlogic "Content Addressable Memory" netlogic NetLogic Ternary Content Addressable Content Addressable Memory network search engine netlogic Priority Encoder CAM
    Text: R Virtex Tech Topic Content Addressable Memory VTT001 v1.0 24 July 2000 Introduction CAM enables accelerated data searches to be performed in a storage array. CAM is well suited for many applications, including table look-up, pattern recognition, cache tags, Ethernet


    Original     		PDF VTT001 XAPP204, XAPP242, netlogic CAM NetLogic "Content Addressable Memory" ternary content addressable memory ternary netlogic "Content Addressable Memory" netlogic NetLogic Ternary Content Addressable Content Addressable Memory network search engine netlogic Priority Encoder CAM

    advanced graphics port

    Abstract: No abstract text available
    Text: Innovations Networking SystemIO Technology Promises High-Speed Connectivity Across Multiple I/O Standards As implemented via Virtex-II Platform FPGAs, SystemIO technology addresses both the physical interfaces and networking protocols for high bandwidth connectivity and throughput.


    Original     		PDF

    XAPP029

    Abstract: adc controller vhdl code verilog rtl code of Crossbar Switch 12-bit ADC interface vhdl code for FPGA vhdl code for pn sequence generator Insight Spartan-II demo board XAPP172 xilinx XC3000 SEU testing verilog hdl code for triple modular redundancy parallel to serial conversion vhdl IEEE paper
    Text: DataSource CD-ROM Q4-01 Xilinx Application Note Summaries XAPP004 Loadable Binary Counters The design strategies for loadable and non-loadable binary counters are significantly different. This application note discusses the differences, and describes the design of a loadable binary counter.


    Original     		PDF Q4-01 XAPP004 XAPP005 XC3000 Desi49 XC18V00, XC9500XL, XC9500XV, XAPP501 XC9500, XAPP029 adc controller vhdl code verilog rtl code of Crossbar Switch 12-bit ADC interface vhdl code for FPGA vhdl code for pn sequence generator Insight Spartan-II demo board XAPP172 xilinx XC3000 SEU testing verilog hdl code for triple modular redundancy parallel to serial conversion vhdl IEEE paper