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probe
- i writing an free losless audio coder, faster on old 486 than flac or ape decoding on pentium 233 MHz !!! the program working, and compression ratio is equal to flac / ape ... On pentium 233 MHz flac decompress time is 26 sec of enya_.w
Chapter1-5
- 第一章到第五章的代码 本书通过100多个模块实例,详细地讲解了Verilog HDL程序设计语言,全书共分13章,内容涉及VerilogHDL语言基本概念、建模、同步设计、异步设计、功能验证等,实例包括各种加法器/计数器、乘法器/除法器、编码器/译码器、状态机、SPIMaster Controller、I2C Master controller、CAN ProtocolController、Memory模块、JPEG图像压缩模块、加密模块、ATA控制器、8位RISC-CPU等及各个实例
C51
- DA转化模块0809是8位8通道逐次逼近式A/D转换器,CMOS工艺,可实现8路模拟信号的分时采集,片内有8路模拟选通开关,以及相应的通道地址锁存用译码电路,其转换时间为100us左右。 OCM12864 液晶显示模块是128×64 点阵型液晶显示模块,可显示各种字符及图形,可与CPU 直接接口,具有8 位标准数据总线、6 条控制线及电源线,采用KS0108 控制IC -DA conversion module 0809 is an 8-bit 8-channel successive
DOS_Serial_Programming
- 串行通信使用单条数据线代替了并行通信的8位数据线,传输的距离更远。通信接口每次从CPU得到8位数据-Serial communication using a single parallel data lines, instead of 8-bit data communication lines, transmission distance farther. Communication interface for each 8-bit data from the CPU to be ...
Intel_8086_datasheet
- Intel_8086_手册.pdf The Intel 8086 high performance 16-bit CPU is available in three clock rates: 5, 8 and 10 MHz. The CPU is implemented in N-Channel, depletion load, silicon gate technology (HMOS-III), and packaged in a 40-pin CERDIP or plastic
PCF8591
- PCF8591: nxp 8-bit A/D and D/A converter, cpu is tms320f28335
s1c33_uCos
- uCos在s1c33上的移植 S1C33 MCU EPSON最新的32位微处理器系列,专用于需要高级数据处理的便捷设备。 CPU性能 核心CPU 精工EPSON32位的RISC CPU,32位内部数据处理 33MHz 105条16位固定长度的指令 16个32位多用途的寄存器 在60MHZ操作下的最小指令执行时间为16.7ns 乘法、除法和MAC指令 内存 0~128K ROM 8K RAM 片内周边电路 晶振电路 32.769K~33MHz 定
system05_latest.tar
- 6805 compatible CPU Core 6805 compatible core - 4 x 8 bit Parallel I/O ports - Dual 8 bit Timer - MiniUART compatible with 6850 ACIA. - Runs with an E clock of 12.5MHz and system clock of 25MHz
ourdev_441156
- AVR单片机是1997年由ATMEL公司研发出的增强型内置Flash的RISC(Reduced Instruction Set CPU) 精简指令集高速8位单片机。AVR的单片机可以广泛应用于计算机外部设备、工业实时控制、仪器仪表、通讯设备、家用电器等各个领域。-AVR Microcontroller ATMEL Corporation in 1997 developed by the enhanced built-in Flash of the RISC (Reduced Instructio
Leg8
- 待商业化的8位高速cpu芯片设计,verilog语言编译通过,ISE平台完成-To be commercial cpu 8-bit high-speed chip design, verilog language compiler, ISE platform to complete
zxcpu
- 用VHDL语言设计了一个含10条指令的RISC处理器。假定主存可以在一个始终周期内完成依次读写操作且和CPU同步,系统使用一个主存单元。处理器指令字长16位,包含8个通用寄存器,1个16位的指令寄存器和一个16位的程序记数器。处理器的地址总线宽度16位。数据总线宽度16位,取指和数据访问均在一跳蝻数据总线。处理器支持包含LDA,STA,MOV,MVI,ADD,SUB,AND,OR,JZ,JMP十条指令。其中仅有LDA和STA是访存指令。-VHDL language design with a R
risc8
- 基于verilog的8位risc-cpu源码,modelsim仿真-Verilog-based 8-bit risc-cpu source, modelsim simulation
LKT4200
- LKT4200 32位高端加密IC是目前行业最高端性能的防盗版加密芯片,芯片采用32位CPU(获得全球最高安全等级EAL5+的智能卡芯片),10K RAM ,支持ISO7816及UART通信,通讯速率最高可达近1Mbps 用户程序存储区容量最高可达420K字节。在超高安全等级加密的同时,速度大大超越一般8位或16位加密芯片。-LKT4200 32-bit high-end encryption IC is currently the industry s most high-end perfo
CPU_test
- 设计并通过modelsim仿真软件实现了一个可以在FPGA平台上运行的8位RISC的CPU软核-Design an 8-bit RISC CPU soft core on an FPGA platform and simulate it using ModelSim
STC89C52douniu
- 基于STC89C52单片机的斗牛玩具机器人研制 STC89C52是一种低功耗、高性能CMOS8位微控制器,具有 8K 在系统可编程Flash 存储器。在单芯片上,拥有灵巧的8 位CPU 和在系统可编程Flash。-Based on STC89C52 microcontroller bullfighting toy robot developed STC89C52 is a low-power, high-performance CMOS8 bit microcontrolle
VeriRISC_CPU_Verilog
- Verilog硬件描述语言实现VeriRISC CPU。模块包含:8位寄存器,5位计数器,32*8 RAM,8位ALU,MUX,顺序控制器,时钟生成器。包含TB。-This code is to model a VeriRISC CPU. It incorporates several modules: 8-bit register, 5-bit counter, 32 by 8 RAM, 8-bit ALU, scalable MUX, sequence controller, and clo
sim
- 8位的CPU设计,4条非R型指令,4条R型指令-CPU design of 8 bit, 4 non R type instruction, 4 R type instruction
cpu_store
- VHDL语言制作CPU,8位,16条指令,能够完成多种操作. -VHDL language production CPU, 8-bit, 16 instruction, to complete a variety of operations. VHDL language with CPU, 8-bit, 16 instruction, to complete a variety of operations.
Micro8a-14oct02
- Micro8a - 一个简单的 8 位 VHDL CPU 核源代码-Micro8a- A Simple 8 bit VHDL CPU source code
auto_baud_RATE
- we ll start timer #1 in 16 bit mode at the transition between the start bit and the LSB and stop it between the MBS and stop bit. That will give approx the number of cpu cycles for 8 bits. Divide by 8 for one bit and by 16 since the built-i