搜索资源列表
leon3-altera-ep2s60-ddr
- This leon3 design is tailored to the Altera NiosII Startix2 Development board, with 16-bit DDR SDRAM and 2 Mbyte of SSRAM. As of this time, the DDR interface only works up to 120 MHz. At 130, DDR data can be read but not written. NOT
vga_hex_disp.rar
- 该项目可在VGA显示器上显示RAM或ROM中的十六进制数据,使用VerilogHDL语言编写,在QuartusII开发环境下验证。,The Project displays the content of memory cells in the form of hexadecimal numbers. It uses RAM and ROM memory modules available through special functions. This is why before compilin
rom.rar
- 使用Altera公司的FPGA进行VHDL开发。使用quartus2 9.0软件在EP1C3T144C8开发板上用硬件描述语言实现一个ROM存储器。,The use of Altera' s FPGA-VHDL development. Use quartus2 9.0 software EP1C3T144C8 development board with hardware descr iption language to achieve a ROM memory.
mem32_to_pcitarget_verilog
- This design example shows how to implement interface between 32-bit pci target Altera megafunction instantiation and a 32-bit synchronous memory
c4gx_f896_host_ddr2a_odt
- ALTERA PCIE FPGA开发板(EP4C平台)DDR2内存测试代码-ALTERA PCIE FPGA development board (EP4C platform) DDR2 memory test code
tut_nios2_introduction
- This tutorial presents an introduction to Altera’s Nios R II processor, which is a soft processor that can be in- stantiated on an Altera FPGA device. It describes the basic architecture of Nios II and its instruction set. The NiosII processor a
ram
- 使用Altera公司的FPGA进行VHDL开发。使用quartus2 9.0软件在EP1C3T144C8开发板上用硬件描述语言实现一个RAM存储器。-The use of Altera' s FPGA-VHDL development. Use quartus2 9.0 software EP1C3T144C8 development board with hardware descr iption language to achieve a RAM memory.
Altera_FPGA_Config_Handbook
- FPGA存储器的配置原则指导手册,包含所有类型的Altera公司FPGA芯片-FPGA configuration memory principles to guide manual, including all types of Altera' s FPGA chips
DDR SDRAM Design Tutorials
- Altera公司的基于NIOSII设计DDR和DDR2内存的资料,很有帮助的,-Based on Altera' s DDR and DDR2 memory NIOSII design information, useful,
mem64_to_pcitarget_verilog
- This design example shows possible interface between instantiation of Altera s 64-bit pci target megafunction and 64-bit synchronous memory -This design example shows possible interface between instantiation of Altera s 64-bit pci target megafunctio
ddr2_test
- 一个用Verilog写的DDR2的控制器(我们项目是在Altera的FPGA)成功仿真,并且使用到了项目中控制DDR2-A written using Verilog DDR2 controller (our project in Altera' s FPGA) successful simulation, and used to control the DDR2 in project
DE3_User_manual
- ALtera公司的ED3开发板,用户手册,The DE3 board has plenty of features that allow users to implement a wide range of designed circuits.-The DE3 board has plenty of features that allow users to implement a wide range of designed circuits.The Stratix® III devic
Pulse_Width_Modulator_Altera_MAX_II_CPLD_Design_Ex
- 来自于ALTERA官方网站。 本文档详细介绍怎样利用MAX® II CPLD 来实现脉冲宽度调制(PWM)。本设计还利用了MAX II CPLD 的内部用户闪存振荡器,不需要采用专门的外部时钟。 附有verilog源程序。-From ALTERA website. This document details how to use the MAX ® II CPLD to implement pulse width modulation (PWM). This design
High-Speed-FFT
- 优秀硕士论文,课题采用现场可编程门阵列((FPGA),设计实现了一种超高速FFT处理器。目前,使用FPGA实现FFT多采用基2和基4结构,随着FPGA规模的不断扩大,使采用更高基数实现FFT变换成为可能。本课题就是采用Alter的Stratix II芯片完成了基16-FFT处理器的设计。在设计实现过程中,以基2-FFT搭建基16-FFT的运算核,合理安排时序,解决了碟形运算、数据传输和存储操作协调一致的问题。由于采用流水线工作方式,使整个系统的数据交换和处理速度得以很大提高。本设计实现了4096
fpga-display-bmp-pictures
- 本文设计的是基于大规模FPGA的BMP图库管理,完成了数码相框的一部分功能。并且本文详细地介绍了BMP图库管理的软硬件实现,即采用Altera的CyclonII系列EP2C20F484C7作为主控芯片,内嵌32位的NiosII软核,采用SDRAM作为内存,把存储在SD卡内的二进制图片信息读入内存,并控制TFT彩色液晶,读取图片数据送到液晶上显示。整个过程的所有设备都是通过Avalon总线挂在NiosII上,在NiosII的协调下正常工作。 本作品最终能显示存入SD卡内的彩色图片信息,图
DE1_fat32
- 本文设计的是基于大规模FPGA的BMP图库管理,完成了数码相框的一部分功能。并且本文详细地介绍了BMP图库管理的软硬件实现,即采用Altera的CyclonII系列EP2C20F484C7作为主控芯片,内嵌32位的NiosII软核,采用SDRAM作为内存,把存储在SD卡内的二进制图片信息读入内存,并控制TFT彩色液晶,读取图片数据送到液晶上显示。整个过程的所有设备都是通过Avalon总线挂在NiosII上,在NiosII的协调下正常工作。 本作品最终能显示存入SD卡内的彩色图片信息,图
Altera-memory
- 这个软件是altera 芯片对SPIflash的一个控制程序,里面读写测试已经通过。-spi flash code for VHDL
convert
- convert PicoBlaze instuctions to altera memory file
Altera-Cyclone-V-Memory
- Altera Cyclone V FPGA中的高效能硬核Memory控制器-Altera Cyclone V FPGA ddr3 Memory control
Templates for Avalon Memory Mapped Devices
- Templates for build Avalon Memory Mapped Devices using QSys and Quartus