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    SDRAM EDAC Search Results

    SDRAM EDAC Result Highlights (2)

    Part ECAD Model Manufacturer Description Download Buy
    DM6446AZWTKEDACOM Texas Instruments DaVinci Digital Media System-on-Chip 361-NFBGA 0 to 85 Visit Texas Instruments Buy
    AM1705DPTPD4 Texas Instruments Sitara Processor: ARM9, SDRAM, Ethernet 176-HLQFP -40 to 90 Visit Texas Instruments

    SDRAM EDAC Datasheets Context Search

    Catalog Datasheet Type Document Tags PDF

    K4S641632K-UC75

    Abstract: h8sx K4S641632K R1LV1616RSD-7SR samsung BCK0
    Text: APPLICATION NOTE H8SX Family Transfer between Synchronous DRAM and External SRAM with EXDMAC Cluster Transfer Introduction The EXDMAC function is used to transfer data from the synchronous DRAM area (hereafter referred to as SDRAM) to the SRAM area in cluster transfer mode.


    Original     		H8SX/1668R H8SX/166products REJ06B0694-0100/Rev K4S641632K-UC75 h8sx K4S641632K R1LV1616RSD-7SR samsung BCK0 PDF

    h8sx

    Abstract: R1LV1616RSD-7SR K4S641632K-UC75
    Text: APPLICATION NOTE H8SX Family Transfer between Synchronous DRAM and External SRAM with EXDMAC Repeat Transfer Introduction The EXDMAC function is used to transfer data from the synchronous DRAM area (hereafter referred to as SDRAM) to the SRAM area in repeat transfer mode.


    Original     		H8SX/1668R H8SX/1668R REJ06B0693-0100/Rev h8sx R1LV1616RSD-7SR K4S641632K-UC75 PDF

    K4S641632K-UC75

    Abstract: h8sx R1LV1616RSD-7SR K4S641632KUC75
    Text: APPLICATION NOTE H8SX Family Transfer between Synchronous DRAM and External SRAM with EXDMAC Normal Transfer Introduction The EXDMAC function is used to transfer data from the synchronous DRAM area (hereafter referred to as SDRAM) to the SRAM area in normal transfer mode.


    Original     		H8SX/1668R H8SX/1668Rproducts REJ06B0691-0100/Rev K4S641632K-UC75 h8sx R1LV1616RSD-7SR K4S641632KUC75 PDF

    K4S641632K-UC75

    Abstract: samsung k4s641632k-uc75 h8sx R1LV1616RSD-7SR
    Text: APPLICATION NOTE H8SX Family Transfer between Synchronous DRAM and External SRAM with EXDMAC Block Transfer Introduction The EXDMAC function is used to transfer data from the synchronous DRAM area (hereafter referred to as SDRAM) to the SRAM area in block transfer mode.


    Original     		H8SX/1668R H8SX/1668R REJ06B0692-0100/Rev K4S641632K-UC75 samsung k4s641632k-uc75 h8sx R1LV1616RSD-7SR PDF

    vhdl code for 16 BIT BINARY DIVIDER

    Abstract: vhdl code 64 bit FPU AT697E
    Text: Atmel AT697E Rad-Hard 32-bit SPARC v8 Processor ERRATA SHEET Active Errata List 1. Multiplier/Divider Failure on Negative Operands Treatments 2. Call Return Address Failure with Large Displacement 3. Byte and Half-word Write to SRAM Failure when Executing from SDRAM


    Original     		AT697E 32-bit 512MB vhdl code for 16 BIT BINARY DIVIDER vhdl code 64 bit FPU AT697E PDF

    AT697

    Abstract: 4409A ASR16 AT697E atmel edac AT697E-2E-E sdram edac
    Text: Active Errata List • • • • • • • • Multiplier/Divider Failure on Negative Operands Treatments Call Return Address Failure with Large Displacement Byte and Half-word Write to SRAM Failure when Executing from SDRAM Wrong PC stored during FPU exception trap


    Original     		AT697E AT697E-2E-E) 32-bit AT697 AT697 4409A ASR16 AT697E atmel edac AT697E-2E-E sdram edac PDF

    AMBA APB UART

    Abstract: dlc10 UT699 352-CQFP state machine for ahb to apb bridge AMBA AHB memory controller UT699 memory map UT699 cpci driver ahb fsm SDRAM edac
    Text: UT699 32-bit Fault-Tolerant LEON 3FT/SPARCTM V8 Processor Aeroflex Colorado Springs 800-645-8862 www.aeroflex.com/LEON August 2009 UT699 LEON 3FT Description T Operates from 3.3V for I/O and 2.5V for core T Multifunctional memory controller supports PROM, SRAM, SDRAM, and I/O


    Original     		UT699 32-bit -40oC 105oC) 352-pin 484-pin IEEE754 GR-CPCI-UT699 AMBA APB UART dlc10 352-CQFP state machine for ahb to apb bridge AMBA AHB memory controller UT699 memory map UT699 cpci driver ahb fsm SDRAM edac PDF

    vhdl code for 16 BIT BINARY DIVIDER

    Abstract: ASR16 4 bit binary multiplier Vhdl code SDRAM edac atmel edac AT697E vhdl code for 4 bit ram vhdl sdram
    Text: Active Errata List 1. 2. 3. 4. 5. 6. 7. 8. 9. 10. 11. 12. 13. Multiplier/Divider Failure on Negative Operands Treatments Call Return Address Failure with Large Displacement Byte and Half-word Write to SRAM Failure when Executing from SDRAM Wrong PC stored during FPU exception trap


    Original     		512MB 4409C vhdl code for 16 BIT BINARY DIVIDER ASR16 4 bit binary multiplier Vhdl code SDRAM edac atmel edac AT697E vhdl code for 4 bit ram vhdl sdram PDF

    K4S641632K-UC75

    Abstract: R1LV1616RSD-7SR LV161 h8sx
    Text: APPLICATION NOTE H8SX Family Transfer between Synchronous DRAM and External SRAM with EXDMAC Extended Repeat Area Function Introduction The extended repeat area function of the EXDMAC in normal transfer mode is used to transfer data from the synchronous DRAM area (hereafter referred to as SDRAM) to the SRAM area.


    Original     		H8SX/1668R REJ06B0745-0100/Rev K4S641632K-UC75 R1LV1616RSD-7SR LV161 h8sx PDF

    K4S641632K-UC75

    Abstract: SAMSUNG K4S641632K-UC75 K4S641632K R1LV1616RSD-7SR h8sx uc75 LV1616RSD-7SR
    Text: APPLICATION NOTE H8SX Family Transfer between Synchronous DRAM and External SRAM with EXDMAC Offset Addition Introduction Data are transferred by the EXDMAC function from the synchronous DRAM area (hereafter referred to as SDRAM) to the SRAM area using normal transfer mode where the transfer address is updated by adding a specified offset.


    Original     		H8SX/1668R REJ06B0695-0100/Rev K4S641632K-UC75 SAMSUNG K4S641632K-UC75 K4S641632K R1LV1616RSD-7SR h8sx uc75 LV1616RSD-7SR PDF

    ADC hard radiation

    Abstract: 28/ADC hard radiation EEPROM 16MB SCS750 HSN-3000 79LV2040 29F0408 rad-pak 358 9240LP XP-40
    Text: Microelectronics’ Product List Product Description Part Number Radiation Technology Package Screening Style Level FP DIP QFP Specification Status S or B Equivalent Data Sheet Active S, B, I, E S, B, I, E S, B, I, E S, B, I, E S, B, I, E Data Sheet Data Sheet


    Original     		MIL-PRF-38535 ISO9001 AS9100 ADC hard radiation 28/ADC hard radiation EEPROM 16MB SCS750 HSN-3000 79LV2040 29F0408 rad-pak 358 9240LP XP-40 PDF

    sphe8200

    Abstract: SPHE8200A 5.1ch i2s audio amplifier sunplus* DVD 1755MHz YUV411 atapi sunplus YUV422 sunplus sphe8200a
    Text: DATA SHEET Y l ia OG t n L e if d NO INC n H o E C S PC HE8200A IS SP E s uDVD SinTgle ChNip DMPEGLAY/V l p C P r o c essor A I n N N u H S UN C E O R S S E U r M o F & Preliminary OCT. 07, 2003 Version 0.2 SUNPLUS TECHNOLOGY CO. reserves the right to change this documentation without prior notice.


    Original     		SPCE8200A SPHE8200A sphe8200 SPHE8200A 5.1ch i2s audio amplifier sunplus* DVD 1755MHz YUV411 atapi sunplus YUV422 sunplus sphe8200a PDF

    Jedec JESD209

    Abstract: mpc5121 PowerVR MBX Lite JESD209 MPC5121e ddr2 ram slots for laptop dvi-d 24 pin diagram PowerVR MBX PowerVR MPC5121ERM
    Text: Freescale Semiconductor Users Guide MPC5121EQRUG Rev. 6, 09/2010 MPC5121e Hardware Design Guide This document is a collection of application examples and practical information that relate to hardware design issues for the MPC5121e and other microprocessors in


    Original     		MPC5121EQRUG MPC5121e Jedec JESD209 mpc5121 PowerVR MBX Lite JESD209 ddr2 ram slots for laptop dvi-d 24 pin diagram PowerVR MBX PowerVR MPC5121ERM PDF

    AMBA APB UART

    Abstract: AT697E SPARC v8 architecture BLOCK DIAGRAM 0.18 um CMOS
    Text: Features • SPARC V8 High-performance Low-power 32-bit Architecture – 8 Register Windows • Integrated 32/64-bit Floating Point Unit • Advanced Architecture • • • • • • • • • • • • – On-chip AMBA Bus – 5-stage Pipeline – 16-Kbyte Multi-sets Data Cache


    Original     		32-bit 32/64-bit 16-Kbyte 32-Kbyte 24-bit 4226AS AMBA APB UART AT697E SPARC v8 architecture BLOCK DIAGRAM 0.18 um CMOS PDF

    ppc 750fx

    Abstract: SCS750 bc 7-25 SDRAM edac RTAX 2000 cpci connector satellite rad 750 user manual SCS750F Programmable Logic Controller radiation SCS750D
    Text: SCS750 Single Board ComputerSCS750 for Space TM Super Computer for Space SCS750D ENGINEERING DEVELOPMENT MODULE As shown - Flight Design With Socketed FPGA's (Flight Board - With space qualified components) Overview of Specifications • One board upset every 3000 years in a GEO or


    Original     		SCS750 ComputerSCS750 SCS750D 1000X SCS750 ppc 750fx bc 7-25 SDRAM edac RTAX 2000 cpci connector satellite rad 750 user manual SCS750F Programmable Logic Controller radiation PDF

    SCS750

    Abstract: bc 7-25 Programmable Logic Controller radiation SCS750F 1000X 750FX ppc 750fx IBM PowerPC Processor 350 Mips IBM 750FX powerpc dhrystone PowerPC 750FX
    Text: SCS750 SCS750 SUPER COMPUTER FOR SPACE TM Super Computer for Space SCS750F® FLIGHT MODULE Overview of Specifications • One board upset every 100 years in a GEO or LEO Orbit • Up to 1000X Better Performance Than Current Space Processor Boards • Highest Space-Qualified Performance @1800 MIPS


    Original     		SCS750 SCS750® SCS750F® 1000X SCS750 bc 7-25 Programmable Logic Controller radiation SCS750F 750FX ppc 750fx IBM PowerPC Processor 350 Mips IBM 750FX powerpc dhrystone PowerPC 750FX PDF

    IBM PowerPC Processor 350 Mips

    Abstract: SDRAM edac rad 750 user manual SCS750 powerpc dhrystone mips powerpc 750 dhrystone mil-std-1553 uart dma 1553 bus SCS750A MIPs datasheet
    Text: MICROELECTRONICS SCS750A TM SUPER COMPUTER FOR SPACE SCS750P PROTOTYPE MODULE As shown - uses commercial components (Flight board - conduction cooled with space qualified components) • One (1) upset every 300 years in a GEO Orbit • Up to 1000X Performance of Current Space


    Original     		SCS750A SCS750P 1000X PowerPC75 IBM PowerPC Processor 350 Mips SDRAM edac rad 750 user manual SCS750 powerpc dhrystone mips powerpc 750 dhrystone mil-std-1553 uart dma 1553 bus SCS750A MIPs datasheet PDF

    Untitled

    Abstract: No abstract text available
    Text: SCS750 SCS750 SUPER COMPUTER FOR SPACE TM Super Computer for SpaCe SCS750F® FLIGHT MODULE Overview of Specifications • One board upset every 100 years in a GEO or LEO Orbit • up to 000X Better performance than Current Space • Highest Space-Qualified performance @800 mIpS


    Original     		SCS750 SCS750Â SCS750FÂ 1000X SCS750 PDF

    asr19

    Abstract: No abstract text available
    Text: RadHard Standard Products UT699RH RadHard 32-bit Fault-Tolerant LEON 3FT/SPARCTM V8 Processor Advanced Data Sheet January 15, 2008 INTRODUCTION The UT699RH is a RadHard pipelined monolithic, highperformance, fault-tolerant SPARCTM V8 Processor. It has been


    Original     		UT699RH 32-bit 1MHz-75MHz IEEE-754 10T/100 asr19 PDF

    UT699RH

    Abstract: SpaceWire Dose
    Text: RadHard Standard Products UT699RH RadHard 32-bit Fault-Tolerant LEON 3FT/SPARCTM V8 Processor Advanced Data Sheet January 29, 2008 INTRODUCTION The UT699RH is a RadHard pipelined monolithic, highperformance, fault-tolerant SPARCTM V8 Processor. It has been


    Original     		UT699RH 32-bit 1MHz-75MHz IEEE-754 10T/100 SpaceWire Dose PDF

    5962-08228

    Abstract: No abstract text available
    Text: Standard Products UT699 32-bit Fault-Tolerant SPARCTM V8/LEON 3FT Processor Preliminary Data Sheet January 7, 2009 INTRODUCTION The UT699 is a pipelined monolithic, high-performance, faulttolerant SPARCTM V8/LEON 3FT Processor. The UT699 provides a 32-bit master/target PCI interface, including a 16 bit


    Original     		UT699 32-bit 75MHz IEEE-754 10T/100 -40oC 105oC 5962-08228 PDF

    smd 3Ft 82

    Abstract: smd 3ft thermal specifications UT699 UT699
    Text: Standard Products UT699 32-bit Fault-Tolerant SPARCTM V8/LEON 3FT Processor Preliminary Data Sheet November 3, 2008 INTRODUCTION The UT699 is a pipelined monolithic, high-performance, faulttolerant SPARCTM V8/LEON 3FT Processor. The UT699 provides a 32-bit master/target PCI interface, including a 16 bit


    Original     		UT699 32-bit 75MHz IEEE-754 10T/100 -40oC 105oC smd 3Ft 82 smd 3ft thermal specifications UT699 PDF

    Untitled

    Abstract: No abstract text available
    Text: Standard Products UT699 32-bit Fault-Tolerant SPARCTM V8/LEON 3FT Processor Data Sheet June 25, 2012 INTRODUCTION FEATURES  Implemented on a 0.25mCMOS technology  Flexible static design allows up to 66MHz clock rate  89 DMIPS throughput via 66MHz base clock frequency


    Original     		UT699 32-bit 66MHz IEEE-754 352-Ceramic 484-Ceramic UT699 -40oC PDF

    5962-08228

    Abstract: 292 CCGA PCIO Diode smd f6 leon3 SMD code V12 smd w20 UT699 array resistor 10k 603 y6 smd transistor
    Text: Standard Products UT699 32-bit Fault-Tolerant SPARCTM V8/LEON 3FT Processor Data Sheet November 3, 2009 INTRODUCTION The UT699 is a pipelined monolithic, high-performance, faulttolerant SPARCTM V8/LEON 3FT Processor. The UT699 provides a 32-bit master/target PCI interface, including a 16 bit


    Original     		UT699 32-bit UT699 66MHz 5962-08228 292 CCGA PCIO Diode smd f6 leon3 SMD code V12 smd w20 array resistor 10k 603 y6 smd transistor PDF