跳转至
研究生日记
DFF_with_byte_enable
简体中文
English
Español
اللغة العربية
正在初始化搜索引擎
GitHub
Home
FPGA学习&实战
原理图&PCB设计
研究生日记
GitHub
Home
FPGA学习&实战
FPGA学习&实战
基础知识
基础知识
常用IP核
常用IP核
FFT IP核使用方法
RAM IP核使用方法
ROM IP核使用方法
自定义IP封装
常用通信协议
常用通信协议
I2C协议
RS485串口协议
SPI协议
千兆以太网通信
FPGA实现CAN通信
HDMI显示器驱动设计
差分对和差分信号
VGA显示器驱动设计
VGA显示器驱动--字符游走
基于ROM的VGA图像显示
DDR3
DDR3
01_AXI4基础知识
02_AXI4_Lite的读写通道和仿真代码的实现
DDR3读写控制器的设计与验证
AD外设
AD外设
AD外设的原理
简易频率计的设计与验证
数字示波器设计
存储器
存储器
ROM、RAM、FIFO知识点整理、区分、应用案例
状态机
状态机
状态机相关知识
时序设计
时序设计
时序约束
为什么时序逻辑需要滞后一个时钟周期
数字电路基础
数字电路基础
数字电路基础
ZYNQ专题
ZYNQ专题
ZYNQ的介绍
其他
其他
DHT11温湿度显示
并行数据转为串行数据
电路的动态特性
高速光通信项目
高速接口的学习
锁存器和触发器的理解与整理
数码管动态显示
笔试题目汇总
使用python修改图像格式
FPGA与CPLD的区别与联系
TestBench编写技巧
fpga的mt9v034摄像头配置及hdmi显示输出
为什么FPGA的阻塞赋值会延时一个时钟周期,而在某些情况下不延时一个时钟周期呐?
笔试题目练习
笔试题目练习
牛客网
牛客网
题目59_根据RTL图编写Verilog程序
题目60_使用握手信号实现跨时钟域数据传输
IIC与SCCB协议的联系与区别
面试实战
HDLBits练习
HDLBits练习
Getting Started
Getting Started
Getting Started
Output Zero
Verilog Language
Verilog Language
Basics
Basics
Simple wire
Four wires
Inverter
AND gate
NOR gate
XNOR gate
Declaring wires
7458 chip
Vectors
Vectors
Vectors
Vectors in more detail
Vector part select
Bitwise operators
Four input gates
Vector concatenation operator
Vector reversal 1
Replication operator
More replication
Modules:Hierarchy
Modules:Hierarchy
Modules
Connecting ports by position
Connecting ports by name
Three modules
Modules and vectors
Adder 1
Adder 2
Carry select adder
Adder subtractor
Procedures
Procedures
Always blocks (combinational)
Always blocks (clocked)
If statement
If statement latches
Case statement
Priority encoder
Priority encoder with casez
Avoiding latches
More Verilog Features
More Verilog Features
Conditional ternary operator
Reduction operators
Reduction Even wider gates
Combinational for loop Vector reversal 2
Combinational for loop 255 bit population count
Generate for loop 100 bit binary adder 2
Generate for loop 100 digit BCD adder
Circuits
Circuits
Combinational_Logic
Combinational_Logic
Basic_Gates
Basic_Gates
Wire
GND
NOR
Another gate
Two gates
More logic gates
7420 chip
Truth tables
Two bit equality
Simple circuit A
Simple circuit B
Combine circuits A and B
Ring or vibrate
Thermostat
3 bit population count
Gates and vectors
Even longer vectors
Multiplexers
Multiplexers
2 to 1 multiplexer
2 to 1 bus multiplexer
9 to 1 multiplexer
256 to 1 multiplexer
256 to 1 4 bit multiplexer
Arithmetic_Circuits
Arithmetic_Circuits
Half adder
Full adder
3 bit binary adder
Adder
Signed addition overflow
100 bit binary adder
4 digit BCD adder
Karnaugh_Map_to_Circuit
Karnaugh_Map_to_Circuit
3-variable
4-variable
4-variable(1)
4-variable(2)
Minimum_SOP_and_POS
Karnaugh_map
Karnaugh_map(1)
K-map_implemented_with_a_multiplexer
Sequential_Logic
Sequential_Logic
Latches_and_Flip-Flops
Latches_and_Flip-Flops
D_flip-flop
D_flip-flops
DFF_with_reset
DFF_with_reset_value
DFF_with_asynchronous_reset
DFF_with_byte_enable
D_Latch
DFF(1)
DFF(2)
DFF+gate
Mux_and_DFF
Mux_and_DFF(1)
DFFs_and_gates
Create_circuit_from_truth_table
Detect_an_edge
Detect_both_edges
Edge_capture_register
Dual-edge_triggered_flip-flop
Counters
Counters
Four-bit_binary_counter
Decade_counter
Decade_counter_again
Slow_decade_counter
Counter_1-12
Counter_1000
4-digit_decimal_counter
12-hour_clock
Shift_Registers
Shift_Registers
4-bit_shift_register
Left-right_rotator
Left-right_arithmetic_shift
5-bit_LFSR
3-bit_LFSR
32-bit_LFSR
Shift_register(1)
Shift_register(2)
3-input_LUT
More_Circuits
More_Circuits
Rule_90
Rule_110
Conways_Game_of_Life_16x16
Finite_State_Machines
Finite_State_Machines
Simple_FSM_1_async
Simple_FSM_1_sync
Simple_FSM_2_async
Simple_FSM_2_sync
Simple_state_transitions_3
Simple_one-hot_state_transitions_3
Simple_FSM_3_async
Simple_FSM_3_sync
Design_a_Moore_FSM
Lemmings_1
Lemmings_2
Lemmings_3
Lemmings_4
One-hot_FSM
PS2_packet_parser
PS2_packet_parser_and_datapath
Serial_receiver
Serial_receiver_and_datapath
Serial_receiver_with_parity_checking
Sequence_recognition
Design_a_Mealy_FSM
Serial_twos_complementer_Moore
Serial_twos_complementer_Mealy
FSM(1)
FSM(2)
FSM_logic
FSM_next-state_logic
FSM_one-hot_next-state_logic
FSM(3)
FSM(4)
One-hot_FSM_equations
FSM(5)
Another_FSM
Building_Larger_Circuits
Building_Larger_Circuits
Counter_with_period_1000
4-bit_shift_register_and_down_counter
FSM_Sequence_1101_recognizer
FSM_Enable_shift_register
FSM_The_complete_FSM
The_complete_timer
FSM_One-hot_logic_equations
Verification_Reading Simulations
Verification_Reading Simulations
Mux
NAND
Mux(1)
Add_sub
Case_statement
Combinational_circuit1
Combinational_circuit2
Combinational_circuit3
Combinational_circuit4
Combinational_circuit5
Combinational_circuit6
Sequential_circuit7
Sequential_circuit8
Sequential_circuit9
Sequential_circuit10
Verification:Writing Testbenches
Verification:Writing Testbenches
AND gate
Clock
T flip flop
Testbench1
Testbench2
Cs450
Cs450
原理图&PCB设计
原理图&PCB设计
基础知识
基础知识
元器件
元器件
电阻
DFF_with_byte_enable
This is a placeholder for DFF_with_byte_enable.
回到页面顶部