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    QDR2 SRAM Search Results

    QDR2 SRAM Result Highlights (5)

    Part ECAD Model Manufacturer Description Download Buy
    R1LV0408DSP-7LR#S0 Renesas Electronics Corporation Low Power SRAM Visit Renesas Electronics Corporation
    R1WV3216RBG-7SR#S0 Renesas Electronics Corporation Low Power SRAM Visit Renesas Electronics Corporation
    R1LV0816ASD-5SI#S0 Renesas Electronics Corporation Low Power SRAM Visit Renesas Electronics Corporation
    R1LV0408DSP-5SR#S0 Renesas Electronics Corporation Low Power SRAM Visit Renesas Electronics Corporation
    R1Q2A7236ABB-40IB1 Renesas Electronics Corporation 72-Mbit QDR™II SRAM 2-word Burst Visit Renesas Electronics Corporation

    QDR2 SRAM Datasheets Context Search

    Catalog Datasheet MFG & Type PDF Document Tags

    RLDRAM

    Abstract: DDR3 Infineon cosmo 1010 817 micron ddr3 1Gb Broadcom product roadmap micron ddr3 Xelerated ddr3 2133 DDR3 phy Qimonda AG
    Text: The Best Low-Latency Memory Gets Better Micron RLDRAM® Memory Better Than Ever – RLDRAM 3 Reduced-latency DRAM RLDRAM® is a high-performance memory that combines the high density, high bandwidth, and fast SRAM-like random access that networking, image


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    MT54V51218A

    Abstract: CY7C1302 XAPP183 Spartan-II FPGA
    Text: White Paper: Spartan-II R WP111 v1.0 February 16, 2000 Introduction Spartan-II Family as a Memory Controller for QDR-SRAMs Authors: Amit Dhir, Krishna Rangasayee The explosive growth of the Internet is boosting the demand for high-speed data communication systems. While RISC CPU speeds have exceeded clock rates of 500 MHz,


    Original     		PDF WP111 com/xapp/xapp173 xapp174 xapp179 wp106 XAPP183: MT54V51218A CY7C1302 XAPP183 Spartan-II FPGA

    DDR2 sdram pcb layout guidelines

    Abstract: qdr2 sram QDR pcb layout Memory Interfaces QDR2 DDR2 layout guidelines pcb layout design mobile DDR RLDRAM
    Text: DEVELOPING HIGH-SPEED MEMORY INTERFACES: THE LatticeSCM FPGA ADVANTAGE A Lattice Semiconductor White Paper February 2006 Lattice Semiconductor 5555 Northeast Moore Ct. Hillsboro, Oregon 97124 USA Telephone: 503 268-8000 www.latticesemi.com Developing High-Speed Memory Interfaces


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    vhdl code for multiplication on spartan 6

    Abstract: CY7C1302 XAPP183 XAPP173
    Text: White Paper: Spartan-II R WP111 v1.0 February 16, 2000 Introduction Spartan-II Family as a Memory Controller for QDR-SRAMs Authors: Amit Dhir, Krishna Rangasayee The explosive growth of the Internet is boosting the demand for high-speed data communication systems. While RISC CPU speeds have exceeded clock rates of 500 MHz,


    Original     		PDF WP111 com/xapp/xapp173 xapp174 xapp179 wp106 XAPP183: vhdl code for multiplication on spartan 6 CY7C1302 XAPP183 XAPP173

    M27483

    Abstract: RFC-2684 RFC2684
    Text: TSP3 Traffic Stream Processor M 2 74 8 3 2.5 Gbps Programmable Traffic Management and Layer 2 Interworking Processor The M27483 is based on a third-generation traffic stream processor architecture TSP3 and is targeted for a variety of programmable traffic management and Layer 2 interworking


    Original     		PDF M27483 RFC-2684 RFC2684

    Untitled

    Abstract: No abstract text available
    Text: TSP3 Traffic Stream Processor M 2 74 8 3 2.5 Gbps Programmable Traffic Management and Layer 2 Interworking Processor The M27483 is based on a third-generation traffic stream processor architecture TSP3 and is targeted for a variety of programmable traffic management and Layer 2 interworking


    Original     		PDF M27483

    netlogic tcam

    Abstract: TCAM netlogic
    Text: ML631 Virtex-6 HXT FPGA Packet Processor/Traffic Manager Evaluation Board User Guide UG841 v1.0 March 9, 2012 Notice of Disclaimer The information disclosed to you hereunder (the “Materials”) is provided solely for the selection and use of Xilinx products. To the maximum


    Original     		PDF ML631 UG841 Si570 com/support/documentation/ml631 netlogic tcam TCAM netlogic

    XAPP688

    Abstract: MT46V16M16 XAPP678 XAPP623 XAPP678C XAPP253 XAPP262 XAPP609 XAPP688C qdr2 sram
    Text: Application Note: Virtex-II Families R XAPP688 v1.2 May 3, 2004 Creating High-Speed Memory Interfaces with Virtex-II and Virtex-II Pro FPGAs Author: Nagesh Gupta, Maria George Summary Designing high-speed memory interfaces is a challenging task. Xilinx has invested time and


    Original     		PDF XAPP688 XC2VP20FF1152-6 XAPP688 MT46V16M16 XAPP678 XAPP623 XAPP678C XAPP253 XAPP262 XAPP609 XAPP688C qdr2 sram

    Untitled

    Abstract: No abstract text available
    Text: TSP3 Traffic Stream Processor M27482 622 Mbps Programmable Traffic Management and Layer 2 Interworking Processor The M27482 is based on a third-generation traffic stream processor architecture TSP3 and is targeted for a variety of programmable traffic management and Layer 2 interworking


    Original     		PDF M27482 M27482

    RFC-2684

    Abstract: tcam RFC2684
    Text: TSP3 Traffic Stream Processor M27482 622 Mbps Programmable Traffic Management and Layer 2 Interworking Processor The M27482 is based on a third-generation traffic stream processor architecture TSP3 and is targeted for a variety of programmable traffic management and Layer 2 interworking


    Original     		PDF M27482 M27482 RFC-2684 tcam RFC2684

    Achronix Semiconductor

    Abstract: ACX-KIT-HD1000-100G
    Text: PRODUCT BRIEF HD1000 Development Kit HD1000 DEV KIT HIGHLIGHTS Development Board Features • HD1000 22-nm FPGA see below for FPGA details • CFP cage for 100GE line interface –– Adaptable to 2x40GE or 10x10GE • Interlaken interface (AirMax connector pair)


    Original     		PDF HD1000 22-nm 100GE 2x40GE 10x10GE 135Gb/s 576Mb PB025 Achronix Semiconductor ACX-KIT-HD1000-100G

    Untitled

    Abstract: No abstract text available
    Text: TSP3 Traffic Stream Processor Family M27480, M27481, M27482, M27483 Programmable Traffic Management and Protocol Interworking Processors Product Family Overview The TSP3 family is the third generation of the highly successful traffic stream processor TSP architecture. It is targeted for


    Original     		PDF M27480, M27481, M27482, M27483

    Untitled

    Abstract: No abstract text available
    Text: TSP3 Traffic Stream Processor Family M27480, M27481, M27482, M27483 Programmable Traffic Management and Protocol Interworking Processors Product Family Overview The TSP3 family is the third generation of the highly successful traffic stream processor TSP architecture. It is targeted for


    Original     		PDF M27480, M27481, M27482, M27483 27480-BRF-002-B M03-0857

    SGMII PCIE bridge

    Abstract: pcie Designs guide wishbone Scatter-Gather direct memory access SG-DMA TN1084 wishbone rev. b SFP CPRI EVALUATION BOARD PCI Express footprint ddr1 ram Ethernet to PCIe Bridge
    Text: f u l l y t e s t e d a n d i n t e r o p e r a b l e Lattice PCIe Solutions Ready-to-Use PCIe Portfolio Lattice provides designers with low cost, low power, programmable solutions that are ready-to-use right out of the box. A suite of tested and interoperable solutions is available for PCI Express,


    Original     		PDF 8b/10b 1-800-LATTICE LatticeMico32, I0195A SGMII PCIE bridge pcie Designs guide wishbone Scatter-Gather direct memory access SG-DMA TN1084 wishbone rev. b SFP CPRI EVALUATION BOARD PCI Express footprint ddr1 ram Ethernet to PCIe Bridge

    comcerto 100

    Abstract: ENGINE MANAGEMENT MICROPROCESSOR comcerto CX28985 M27483 RFC2684
    Text: TSP3 Traffic Stream Processor Family M27480, M27481, M27482, M27483 Programmable Traffic Management and Protocol Interworking Processors Product Family Overview The TSP3 family is the third generation of the highly successful traffic stream processor TSP architecture. It is targeted for


    Original     		PDF M27480, M27481, M27482, M27483 27480-BRF-002-D comcerto 100 ENGINE MANAGEMENT MICROPROCESSOR comcerto CX28985 M27483 RFC2684

    SX95T

    Abstract: AD1520 HUmiseal 1B31 AD1500 1B73EPA 1B31 VIRTEX-5 DDR2 controller Virtex Analog to Digital Converter ad152
    Text: Data Sheet AD1520 Du a l Ch a n n e l 1 . 5 GS PS A n a l o g I n p u t X M C/ PM C UNITRONIX Pty Ltd PO Box 486, Morisset NSW 2264 NSW: Tel: 61 2 4977 3511 Fax: 61 2 4977 3522 WA: Tel: 61 8 9455 2424 Fax: 61 8 9455 2458


    Original     		PDF AD1520 SX95T MKT-DS-AD1520-06089v4 AD1520 HUmiseal 1B31 AD1500 1B73EPA 1B31 VIRTEX-5 DDR2 controller Virtex Analog to Digital Converter ad152

    DB3 C432

    Abstract: 2n2222 sot23 PR55D C458 DB3 C418 db3 c248 BOURNS-3224W-10K transistor C458 transistor c331 DB3 C327
    Text: LatticeSC PCI Express x1 Evaluation Board User’s Guide November 2008 Revision: EB24_01.4 LatticeSC PCI Express x1 Evaluation Board User’s Guide Lattice Semiconductor Introduction This user’s guide describes the LatticeSC PCI Express x1 Evaluation Board featuring the LatticeSC LFSCM3GA25


    Original     		PDF LFSCM3GA25 DB3 C432 2n2222 sot23 PR55D C458 DB3 C418 db3 c248 BOURNS-3224W-10K transistor C458 transistor c331 DB3 C327

    Untitled

    Abstract: No abstract text available
    Text: ACX-KIT-HD1000-100G Development Kit User Guide UG034, March 11, 2014 UG034, March 11, 2014 1 Copyright Info Copyright 2014 Achronix Semiconductor Corporation. All rights reserved. Achronix is a trademark and Speedster is a registered trademark of Achronix Semiconductor Corporation.


    Original     		PDF ACX-KIT-HD1000-100G UG034, 633MHz.

    XLR732

    Abstract: XLR716 RMI processor MIPS64 XLR700 Multicore SHA-256 XLR 32 raza SHA-256 MIPS64CPUs
    Text: RMI XLR700 Processor Series Next Generation Multiprocessing PRODUCT BRIEF Throughput Optimized MIPS64 Multiprocessors Scalable Processor Solutions Product Overview Block Diagram RMI’s 700 series of XLR processors is architected to address IP networking, VoIP, wireless LAN, 3G wireless, broadband, storage,


    Original     		PDF XLR700 MIPS64® MIPS64 XLR732 XLR716 RMI processor Multicore SHA-256 XLR 32 raza SHA-256 MIPS64CPUs

    bc 106

    Abstract: EC20 LFEC20E-4F672C ORSPI4-2FE1036C RD1019 Verilog DDR memory model
    Text: QDR Memory Controller May 2005 Reference Design RD1019 Introduction QDR SRAM is a new memory technology defined by a number of leading memory vendors for high-performance and high-bandwidth communication applications. QDR is a synchronous pipelined burst SRAM with two separate


    Original     		PDF RD1019 1-800-LATTICE bc 106 EC20 LFEC20E-4F672C ORSPI4-2FE1036C RD1019 Verilog DDR memory model

    Untitled

    Abstract: No abstract text available
    Text: XMC Modules XMC-6VLX User-Configurable Virtex-6 FPGA Modules P4 P16 High-Speed SFP Port optional X1 11 LVDS Pairs, 2 Global Clock Pairs, USB, GND X4 X4 36 x 2 JTAG Quad DDR3 SDRAM 2Gb (128M x 16) 36-Pin Connector (optional) XC6VLX240 or XC6VLX365 16 x 4


    Original     		PDF 36-Pin XC6VLX240 XC6VLX365 256Mb 128Mb

    BC 106

    Abstract: No abstract text available
    Text: QDR Memory Controller May 2004 Reference Design RD1019 Introduction QDR SRAM is a new memory technology defined by a number of leading memory venders for high-performance and high-bandwidth communication applications. QDR is a synchronous pipelined burst SRAM with two separate


    Original     		PDF RD1019 178MHz 32-bit, 16-bit 1-800-LATTICE BC 106

    verilog code for spi4.2 to fifo

    Abstract: verilog code for spi4.2 interface LFSC25 qdr2 sram DDR2 routing Tree LFSC115 R28C9A Signal Path Designer RLDRAM
    Text: DELIVERING FPGA-BASED PRE-ENGINEERED IP USING STRUCTURED ASIC TECHNOLOGY A Lattice Semiconductor White Paper February 2006 Lattice Semiconductor 5555 Northeast Moore Ct. Hillsboro, Oregon 97124 USA Telephone: 503 268-8000 www.latticesemi.com 1 Delivering FPGA Based Pre-Engineered IP Using Structured ASIC Technology


    Original     		PDF 700Mhz verilog code for spi4.2 to fifo verilog code for spi4.2 interface LFSC25 qdr2 sram DDR2 routing Tree LFSC115 R28C9A Signal Path Designer RLDRAM

    05564

    Abstract: BV25 CY7C129 CY7C130 CY7C131 CY7C132 CY7C1422AV18 1428A
    Text: CY7C129*DV18/CY7C130*DV25 CY7C130*BV18/CY7C130*BV25/CY7C132*BV25 CY7C131*BV18 / CY7C132*BV18/CY7C139*BV18 CY7C191*BV18/CY7C141*AV18 / CY7C142*AV18/ CY7C151*V18 /CY7C152*V18 Errata Revision: *C May 02, 2007 RAM9 QDR-I/DDR-I/QDR-II/DDR- II Errata This document describes the DOFF issue for QDRII/DDRII and the Output Buffer and JTAG issues for


    Original     		PDF CY7C129 DV18/CY7C130 CY7C130 BV18/CY7C130 BV25/CY7C132 CY7C131 CY7C132 BV18/CY7C139 CY7C191 BV18/CY7C141 05564 BV25 CY7C1422AV18 1428A