资源列表
HW3_P1
- Clock Controller There are often situations where one wishes to pass a predetermined number of clock pulses and then stop. The purpose of this problem is to design a controller in VHDL to gate a preset number of pulses form a free-running clock “CL
ALUALUcontrol
- 实现32位的ALU,使其能够支持基本的指令。用Verilog HDL语言或VHDL语言来编写,实现ALU及ALU控制器。 -To achieve 32-bit ALU, so that it can support the basic directives. With the Verilog HDL language or VHDL language to write, implement ALU and the ALU controller.
Move071221133_32
- 用Verilog HDL语言或VHDL语言来编写,实现32位的桶形移位器。 并在Quartus Ⅱ上实现模拟仿真;-With the Verilog HDL language or VHDL language to write to achieve 32-bit barrel shifter. To achieve in the Quartus Ⅱ simulation
VHDL
- 分频跑马灯数码管示范代码能实现分频跑马灯数码管示范-Crossover Marquee digital control Model Code
IU3
- sun公司的sparc结构之整数处理器vhdl源码-The file is the RTL of the Sparc s integer unit.
VERILOG
- 一本很好的Verilog课件,通俗易懂简单明了适合初学者,给大家分享了~-A very good Verilog courseware, simple easy to understand for beginners, for everyone to share ~
RS_decoder
- Reed solomon decoder based on table-lookup method VHDL code
wtut_edif
- Xilinx clock. DIGITAL CLOCK for Spartan-3 Starter Board. This design shows how to generate a digital clock and display the output to the multiplexed 7- segment display in VHDL.
wtut_sc
- DCM includes a clock delay locked loop used to minimize clock skew for Spartan-3, Virtex-II, Virtex-II Pro, and Virtex-II Pro X devices. DCM synchronizes the clock signal at the feedback clock input (CLKFB) to the clock signal at the input clock
wtut_ver
- DCM supports two frequency modes for the DLL. By default, the DLL_FREQUENCY_MODE attribute is set to Low and the frequency of the clock signal at the CLKIN input must be in the Low (DLL_CLKIN_MIN_LF to DLL_CLKIN_MAX_LF) frequency range (MHz). S
wtut_vhd
- When the DLL_FREQUENCY_MODE attribute is set to High, the frequency of the clock signal at the CLKIN input must be in the High (DLL_CLKIN_MIN_HF to DLL_CLKIN_MAX_HF) frequency range (MHz). See The Programmable Logic Data Book for the current DL
DFNL
- On-chip synchronization is achieved by connecting the CLKFB input to a point on the global clock network driven by a BUFG, a global clock buffer. The BUFG connected to the CLKFB input of the DCM must be sourced from either the CLK0 or CLK2X out