搜索资源列表
CORDIC
- 用verilog写的CORDIC算法实现,很适合做超越函数的运算。通常用于实现正弦乘法,或者坐标变换。-The cordic arithmetic implemented by verilog is adapted to exceed function.It is usually used to implement sine multiplication or coordinate tuansform.
16bit_booth_multiplier_STG
- verilog程序,实现两个16bit数乘法,采用booth算法,基于状态机实现,分层次为datapath和controller两个子模块,testBench测试通过-verilog procedures, two 16bit multiplication, the algorithm used booth. Based on the state machine achieved at different levels for datapath controller and two sub-mo
The_6th
- 一个自己写的8位CPU程序,以Verilog语言实现,仅可做8×8的乘法和8/8的除法,功能不强大,但对于初学Verilog的人应该有些帮助
mutl16 实现16位移位乘法和除法
- 实现16位移位,可以实现乘法和除法。满足设计要求,实现代码简短,用verilog完成方便,容易操作。-Achieve 16-bit shift, multiplication and division can be achieved. Meet the design requirements to achieve a short code, complete with verilog convenient, easy to operate.
divide
- Verilog hdl语言的常用除法器设计,可使用modelsim进行仿真-Commonly used languages Verilog hdl divider design, can use the ModelSim simulation
fir_parall
- 基于verilog的fir滤波器设计,用的并行结构。在前面基础上加入四级流水(加法器,并行乘法器,乘法结果相加两级),通过验证。-Verilog-based design of fir filter using the parallel architecture. In front of the basis of adding four water (adder, parallel multiplier, multiply the result of the sum of two), throu
sin.tar
- 神奇的sin波生成verilog源码,非常简单的代码无需乘法即可生成sin,cos,值得搞算法的人借鉴-Magic sin wave generated Verilog source code, the code is very simple multiplication can be generated without sin, cos, worthy people from engaging in algorithm
Common_multiplier_verilog_design
- 上传文件为:常用乘法器verilog设计.rar-Upload files as follows: common multiplier verilog design. Rar
cpu(FinalWithYS)
- verilog实现的八位CPU,包括乘法、除法以及多种寻址方式。代码中包括测试模块,可以直接在试验箱上运行。-verilog to achieve the eight CPU, including multiplication, division, as well as addressing a variety of ways. Code, including test modules, can be run directly in the chamber.
chengfa-verilog
- booth乘法器verilog代码.利用移位和加法来实现乘法-verilog
Verilog
- 基于Verilog的编码用BOOTH算法和移位相加实现乘法运算-BOOTH Algorithm with multiplication
etd-0407109-183702-81-001[1]
- 文章介绍了YUV向RGB颜色空间转换的硬件电路实现算法.在高基乘法算法基础上,建立了参数化高基乘法算法模型,并给出了Verilog HDL描述 小数乘法的整数乘法近似和近似误差给予了详细的讨论.采用乘法单元复用的设计结果将在两个时钟周期内完成YUV向RGB的颜色空间转换.-This paper introduces the YUV to RGB color space conversion hardware algorithm. Matrix multiplication algorithm i
verilog
- 介绍了一种64位子字并行乘法器的设计。根据不同的操作模式可以完成普通模式操作即64bit*64bit乘法操作,又可完成子字并行操作模式,即4个16bit*16bit乘法操作。-Introduced a 64-seat word parallel multiplier design. Depending on the operating mode Normal mode operation can be done that 64bit* 64bit multiplication operation
chengfaleijia
- verilog 乘法累加器 包括工程项目及仿真波形图-verilog multiplier-accumulator including the project and the simulation waveform
unsigned_array_multiplier
- 4X4位的无符号型阵列乘法器,可以提高乘法的运算速度(4X4 bit unsigned array multiplier, can increase the multiplication of the operation speed)
rtl
- 基于S10新品的2x2矩阵乘模块,附带双精度的乘法,除法ip核(2x2 matrix multiplication module based on S10 new product, with double precision multiplication, division IP kernel)
float_multi_module
- float_multi_module实现了单精度浮点乘法运算(Float_multi_module implements single precision floating point multiplication.)
RS(204,188)译码器的设计
- RS(204,188)译码器说明 原文件: rs_decoder.v(顶层文件), SyndromeCalc.v(计算伴随式), BM_KES.v(BM求解关键方程), Forney.v(Forney算法求误差样值), CheinSearch.v(搜索错误位置),ff_mul.v(有限域乘法)。 ROM及初始化文件: rom_inv.v(求逆运算), rom_power.v(求幂运算); rom_inv.mif(ROM初始化文件), rom_po
float_mult32x32.v
- verilog 语言写的FPGA内部实现硬件浮点乘法器的源码,两个时钟周期完成一次浮点乘法运算(The FPGA language written in Verilog implements the source of the hardware floating point multiplier, and completes the floating point multiplication operation in two clock cycles.)
cordic
- 基于verilog HDL的cordic算法FPGA实现。省去繁琐的乘法开方计算。IDE为vivado 2014( U57FA u4E8Everilog HDL u7684cordic u7B97 u6CD5FPGA u5B9E u73B0 u3002 u7B1 u53BB u7E1 u7410 u7684 u4E58 u6CD5 u5F00 u65B9 u8BA1 u7B97 u300BIDE u4E3Avivado 2014)